Liu Xiaoda | Material Genetic Engineering | Best Researcher Award

Published on by Applied Scientist

Mr. Liu Xiaoda | Material Genetic Engineering | Best Researcher Award

Associate Professor at Taiyuan University of Technology, China

Dr. Liu Xiaoda is an Associate Professor and Master’s Supervisor at the School of Artificial Intelligence, Taiyuan University of Technology (TYUT). Born in February 1982 in Houma, Shanxi Province, he has devoted his academic career to advancing research in material gene engineering and machine learning. With a strong foundation in Materials Physics and Chemistry, Dr. Liu has developed a robust interdisciplinary profile blending materials science with artificial intelligence. A member of the Jiusan Society and a Han ethnic group representative, he actively contributes to both scientific and civic communities. Over the years, he has earned a reputation for excellence in teaching, mentorship, and research. He is also an active member of prominent provincial-level research centers, including the Shanxi Provincial Key Laboratory of Data Governance and Intelligent Decision-Making and the Shanxi Provincial Key Laboratory of Metal Materials and Corrosion Control. A member of the China Computer Federation (CCF), Dr. Liu plays a critical role in the convergence of computer science and materials engineering. With his multifaceted expertise and forward-looking vision, Dr. Liu is committed to pushing the boundaries of intelligent materials design and digital transformation in materials research.

Professional Profile

Education

Dr. Liu Xiaoda received his doctoral degree from Taiyuan University of Technology, where he majored in Materials Physics and Chemistry. This rigorous academic training equipped him with comprehensive knowledge in the fields of materials science, computational modeling, and experimental analysis. During his Ph.D. journey, Dr. Liu focused on exploring novel methods to optimize material structures using data-driven approaches, laying the foundation for his later work in materials informatics. His academic background provided him not only with deep theoretical insights into materials behavior at the micro and nanoscale but also with practical skills in handling complex datasets, laboratory instrumentation, and simulation software. Dr. Liu’s multidisciplinary education fostered his passion for integrating artificial intelligence techniques with materials science—a relatively novel and promising frontier. The strong academic environment at Taiyuan University of Technology, known for its emphasis on research and innovation, nurtured Dr. Liu’s scholarly abilities and prepared him to tackle complex scientific challenges. Throughout his academic life, he has remained committed to lifelong learning, regularly attending workshops and technical training to stay updated on emerging trends in machine learning, computational chemistry, and big data analytics.

Professional Experience

Dr. Liu Xiaoda has accumulated extensive professional experience through his academic appointments at Taiyuan University of Technology. From 2019 to 2021, he served as a Lecturer at the School of Big Data, where he began developing interdisciplinary research on materials data science. His dedication and innovative approach led to his promotion to Associate Professor in 2022 at the School of Computer Science and Technology (formerly also the School of Big Data). In 2024, Dr. Liu transitioned to the School of Artificial Intelligence, continuing his role as an Associate Professor and broadening the impact of his research in machine learning-driven materials engineering. As a Master’s Supervisor, he has mentored numerous graduate students, guiding them through advanced topics in smart materials, data mining, and artificial intelligence applications in physical sciences. His academic responsibilities also include curriculum development, research supervision, and collaborative project leadership. Dr. Liu’s multidisciplinary insight enables him to lead initiatives that bridge traditional materials science with cutting-edge computational techniques. His commitment to academic excellence is further evidenced by his leadership roles in key research projects funded by the Shanxi Provincial Government and industrial collaborations, as well as by his involvement in multiple key laboratories and professional societies.

Research Interest

Dr. Liu Xiaoda’s research interests lie at the intersection of materials science and artificial intelligence. His primary focus is on materials gene engineering and machine learning applications in materials discovery. Through this integrated approach, Dr. Liu seeks to revolutionize how new materials are designed, optimized, and deployed. He is particularly interested in using data-driven algorithms to predict material properties and accelerate the development of functional materials for industrial and technological use. Another key area of his research is intelligent sensing, where he investigates the use of smart sensors and embedded systems for real-time material diagnostics. Additionally, Dr. Liu explores materials big data, employing high-throughput experimentation and data governance frameworks to manage, analyze, and visualize large-scale datasets effectively. His work contributes to both fundamental science and industrial applications, addressing pressing issues in materials innovation, corrosion control, and intelligent manufacturing. With a multidisciplinary lens, he collaborates across fields to enhance the reliability, efficiency, and environmental sustainability of next-generation materials. His future research aims to further integrate deep learning, digital twins, and autonomous experimentation to build intelligent platforms for materials development and application.

Research Skills

Dr. Liu Xiaoda possesses a comprehensive and versatile research skill set that enables him to lead innovative and impactful projects across disciplines. He is proficient in machine learning, particularly in applying algorithms such as random forests, neural networks, and support vector machines to predict and optimize material properties. His expertise in materials informatics allows him to manage and analyze large datasets for materials design using high-throughput simulations and computational modeling. He is also skilled in statistical analysis, data visualization, and programming languages such as Python, MATLAB, and R, which he uses to develop custom algorithms for scientific research. On the experimental side, Dr. Liu has hands-on experience with various characterization techniques, including XRD, SEM, and electrochemical testing, which are essential for validating computational predictions. Furthermore, he has developed skills in multidisciplinary project management, coordinating teams across research institutions and industries. His deep understanding of data governance, combined with practical skills in AI-driven decision-making, equips him to work at the forefront of intelligent materials research. His ability to bridge computational and experimental workflows is a hallmark of his research methodology, facilitating impactful outcomes in both academic and practical applications.

Awards and Honors

Dr. Liu Xiaoda has been recognized for his significant contributions to scientific research and academic leadership. He has successfully led eight major research projects, including the Shanxi International Collaboration Program, Shanxi Key R&D Plan, and foundational research initiatives. One of his achievements includes a technology transfer project based on a patented invention, demonstrating his ability to translate academic research into real-world applications. He has published over 30 scholarly articles, including 20+ SCI-indexed papers, of which four are in top-tier journals, affirming the high impact of his work. Dr. Liu holds one authorized invention patent, and his innovations have been instrumental in advancing the fields of materials data science and intelligent design. He is an active member of the China Computer Federation (CCF) and a core member of two Shanxi Provincial Key Laboratories, further emphasizing his influence in the scientific community. His growing reputation as a thought leader and his success in competitive research funding reflect his dedication to academic excellence and innovation. These accolades highlight both his intellectual depth and his practical influence on interdisciplinary research in materials and artificial intelligence.

Conclusion

Dr. Liu Xiaoda exemplifies the qualities of a modern interdisciplinary scientist, seamlessly integrating materials science with artificial intelligence to solve complex technological challenges. As an Associate Professor and Master’s Supervisor at the School of Artificial Intelligence, Taiyuan University of Technology, he has demonstrated leadership in education, research, and scientific collaboration. His commitment to pushing the boundaries of knowledge is evident in his prolific research output, influential patents, and successful management of high-level research projects. Dr. Liu’s work addresses key global priorities, including smart manufacturing, sustainable materials, and AI-driven innovation. Through his active involvement in academic societies and provincial laboratories, he continues to shape the future of intelligent materials research in China and beyond. His dynamic career trajectory and strong academic foundation make him a valuable asset to the scientific community. Looking ahead, Dr. Liu aims to deepen interdisciplinary collaborations, mentor the next generation of researchers, and further explore the synergy between data science and materials engineering. His professional journey is a testament to the power of combining traditional scientific rigor with modern computational intelligence.

Publications Top Notes

Title: Tailoring precipitation strengthening in Low-Alloy High-Strength Steel: The synergistic role of Ni, V, and Ti
Authors: Xiao-da Liu, Yu-shan Shi, Xi-wen Yue, Hua-yun Du, Li-feng Hou, Qian Wang, Huan Wei, Wen-feng Wang, Ying-hui Wei
Year: 2025

Title: Regulating the localized corrosion of grain boundary and galvanic corrosion by adding the electronegative element in magnesium alloy
Authors: Xiao-da Liu, Qixin Yan, Lifeng Hou, Junli Sun, Donghu Li, Jianlei Song, Qian Wang, Yinghui WeiYear: 2025
Citations: 2

Title: Grain gradient refinement and corrosion mechanisms in metals through severe plastic deformation: insights from Surface Mechanical Attrition Treatment (SMAT)
Authors: Xiao-da LiuYear: 2025
Citations: 1

Zhanjuan Chen | New Drug Discovery | Applied Scientist Award

Published on by Applied Scientist

Prof. Zhanjuan Chen | New Drug Discovery | Applied Scientist Award

Professor at Hainan Medical University, China

Professor Zhanjuan Chen, currently serving at Hainan Medical University, is an accomplished academic with focused research expertise in the pathogenesis and drug screening for cancer and related diseases such as pulmonary hypertension. Her pioneering investigations have identified MEIS1 and LDHA as potential therapeutic targets for acute myeloid leukemia and pulmonary hypertension, respectively. Her contributions are grounded in both traditional Chinese medicine and modern biomedical science, demonstrating a unique interdisciplinary strength. Professor Chen is leading the development of Callicarpa Tissue-Regenerating Gel, an innovative treatment for chronic non-healing wounds. Her scientific output includes two SCI-indexed articles, one with 17 citations, as well as one book publication, a patent, and multiple collaborative R&D efforts. A member of the Chinese Pharmacological Society and the Hainan Provincial Laboratory Animal Science Association, she has actively contributed to academic and professional communities. Her efforts bridge theoretical research and translational application, demonstrating significant potential in therapeutic development. Professor Chen has completed and is continuing several high-impact research projects and has gained valuable experience through industry collaborations. With a steadfast commitment to innovation and patient care, her work aligns well with the mission of the Applied Scientist Awards. She stands as a strong candidate for recognition based on her impactful contributions to science and medicine.

Professional Profile

Education

Professor Zhanjuan Chen’s academic journey reflects her unwavering dedication to biomedical science. She pursued her higher education with a strong emphasis on pharmacology, traditional Chinese medicine, and translational oncology. Although specific institutional details of her academic degrees are not provided in the nomination form, her academic foundation is clearly rooted in multidisciplinary and clinically oriented research, evidenced by her current academic role and her published outputs. Her studies prepared her extensively in molecular biology, pathogenesis of chronic diseases, pharmacodynamics, and drug discovery techniques. Her background integrates both conventional research methodologies and cutting-edge approaches, such as high-throughput screening and mechanistic investigations of disease pathways. Through her academic training, she acquired expertise in understanding the molecular underpinnings of cancer and pulmonary diseases, allowing her to formulate novel hypotheses and experimental strategies. Additionally, her immersion in traditional Chinese pharmacology has provided her with a holistic outlook toward therapeutic discovery, particularly in the development of tissue-regenerating formulations. Her educational trajectory is also complemented by continued scholarly engagement, including contributions to scientific publications and patents. Professor Chen’s education has laid a strong intellectual and practical foundation for her impactful research career, positioning her well to address current challenges in oncology and pharmacology with innovative, evidence-based solutions.

Professional Experience

Professor Zhanjuan Chen has accumulated significant experience in both academic and translational research environments. As a faculty member at Hainan Medical University, she has led multiple research initiatives that combine experimental pharmacology with clinical application. Her academic appointments reflect a career trajectory marked by continuous advancement and increasing research responsibility. Notably, her role as principal investigator for projects such as “Astragalin Regulates Proliferation of Acute Myeloid Leukemia Cells by Targeted Inhibition of MEIS1 Protein” underscores her leadership in the field of targeted cancer therapy. She is also the innovator behind the Callicarpa Tissue-Regenerating Gel, a formulation developed to promote healing in chronic wounds—a major challenge in geriatric and diabetic care. Beyond her institutional duties, Professor Chen has collaborated with industry partners on the development of Zizhu Shengji Gel, showcasing her ability to translate laboratory findings into real-world healthcare solutions. Her professional engagements extend to managing patents, publishing research articles, and authoring a scientific book. Her affiliations with professional bodies further strengthen her academic presence. In every role, Professor Chen has demonstrated scientific rigor, mentorship, and a passion for innovation. Her broad experience, spanning research, development, and clinical application, equips her with a unique skillset to contribute meaningfully to the scientific community.

Research Interest

Professor Chen’s research interests center on elucidating the molecular pathogenesis of cancer and cancer-like diseases, particularly pulmonary hypertension, and discovering therapeutic agents through both conventional and traditional medical approaches. Her work is heavily influenced by the integration of modern biomedical techniques with traditional Chinese pharmacology. Her early contributions included identifying MEIS1 as a therapeutic target for acute myeloid leukemia, which she continues to explore through targeted therapeutic strategies using compounds like astragalin. She has also identified LDHA as a critical regulatory target in pulmonary hypertension, offering new hope for treatment development in this complex disease. Currently, her research expands into regenerative medicine, exemplified by her work on Callicarpa Tissue-Regenerating Gel, which bridges pharmacological insights with practical wound care solutions. She is also engaged in the R&D of Zizhu Shengji Gel, an innovative traditional Chinese medicine for wound healing. These interests position her at the forefront of translational medicine and drug innovation. Her ability to connect basic molecular discoveries to clinical and therapeutic applications is a distinctive strength. Her research vision is to continue combining molecular biology, pharmacology, and traditional medicine to deliver accessible, effective treatments for some of today’s most challenging medical conditions.

Research Skills

Professor Zhanjuan Chen possesses a robust skill set that spans multiple domains of biomedical research. Her core competencies include target discovery using molecular biology techniques, pharmacological screening, disease modeling, and translational application. She is adept in methodologies such as Western blotting, immunohistochemistry, gene expression profiling, and cellular proliferation assays. Her ability to evaluate drug efficacy, particularly natural compounds like astragalin, is enhanced by her skills in in vitro and in vivo disease models. Additionally, her knowledge in formulating traditional Chinese medicine into modern therapeutic agents—like tissue-regenerating gels—exemplifies her interdisciplinary capabilities. Her patent and book publication demonstrate proficiency in scientific writing and product development. Professor Chen is also experienced in project management and collaborative R&D, coordinating with academic and industrial stakeholders to move innovations from the bench to the bedside. Her skills are continuously refined through her active engagement in research projects and industry partnerships. Furthermore, her understanding of regulatory frameworks and translational research pipelines ensures that her discoveries are positioned for clinical applicability. These capabilities make her not just a scientist but a comprehensive innovator in healthcare. She combines scientific rigor with creativity, making her research both impactful and implementable in real-world clinical settings.

Awards and Honors

While specific awards and honors were not detailed in the application, Professor Zhanjuan Chen’s academic and research trajectory clearly demonstrates the caliber worthy of prestigious recognition. Her identification of MEIS1 and LDHA as key therapeutic targets represents a significant advancement in the fields of oncology and pulmonary medicine. The development of her Callicarpa Tissue-Regenerating Gel also highlights her contribution to regenerative medicine, offering a new avenue for treating chronic, non-healing wounds. These innovations underline her eligibility for honors such as the Best Researcher Award or Excellence in Innovation. Her selection as a principal investigator on multiple projects, including industry collaborations, speaks to the trust placed in her expertise by peers and stakeholders alike. Publishing in SCI-indexed journals, authoring a book, and patenting her inventions all reflect professional acknowledgment of her work’s quality and relevance. Moreover, her memberships in national academic societies signify her integration into scholarly networks that recognize her contributions. Though formal accolades may not yet be numerous, the tangible impact of her work—on science, clinical practice, and traditional medicine modernization—places her in strong contention for distinguished recognition in applied science domains.

Conclusion

Professor Zhanjuan Chen exemplifies the ideal candidate for the Applied Scientist Award. Her work seamlessly integrates cutting-edge biomedical research with the time-tested principles of traditional Chinese medicine, reflecting a unique and impactful research philosophy. From identifying novel therapeutic targets to formulating new medicinal gels, she has consistently demonstrated innovation, rigor, and a commitment to improving human health. Her ability to bridge the gap between fundamental science and clinical application ensures that her work not only advances knowledge but also delivers real-world solutions. Through her collaborations with academic institutions and industry partners, she has expanded the reach and relevance of her research. Her dual expertise in modern molecular pharmacology and traditional healing systems places her at the nexus of innovation and tradition—an increasingly valuable perspective in global healthcare. Professor Chen’s career reflects sustained excellence and growth, making her a role model for interdisciplinary research and a strong ambassador for translational science. Recognizing her achievements with an award would not only honor her contributions but also inspire continued progress in applied medical research. She stands as a testament to the transformative potential of integrating science with tradition to solve pressing medical challenges.

Publications Top Notes

  • Title: Identification of LDHA as a Potential Therapeutic Target for Pulmonary Hypertension Through Modulation of Endothelial‐To‐Mesenchymal Transition
    Authors: Maozhong Yao, Keyan Zhong, Xinbin Zheng, Zhaoxin Yang, Chunying Li, Yong Gu, Zhanjuan Chen
    Year: 2025

  • Title: MEIS1 and its Potential as a Cancer Therapeutic Target (Review)
    Authors: Maozhong Yao, Yong Gu, Zhaoxin Yang, Keyan Zhong, Zhanjuan Chen
    Year: 2021

Sergey Timashev | Quantum Science | Best Researcher Award

Published on by Applied Scientist

Prof. Sergey Timashev | Quantum Science | Best Researcher Award

Researcher at National Research Nuclear University MEPhI, Russia

Serge F. Timashev is a distinguished Russian physicist and physical chemist whose multidisciplinary research spans over six decades. Born in 1937 in Irbit, Sverdlovsk region, Russia, he has profoundly influenced fields ranging from nuclear physics and membrane science to geophysics and quantum mechanics. He earned his M.Sc. in Physics from Moscow State University in 1960, followed by a Ph.D. in Nuclear Physics in 1966, and a Doctor of Science in Physics and Mathematics in 1975. Dr. Timashev has held prestigious research positions in top Russian scientific institutes and is currently affiliated with the National Research Nuclear University MEPhI in Moscow. A pioneer in Flicker-Noise Spectroscopy and the physical chemistry of membrane processes, he has authored over 300 publications and several monographs. His seminal work has laid the foundation for innovative signal analysis techniques and energy-dependent separation methods. His contributions have earned him numerous accolades, including the Russian Federation Government Prize in Science and Technology and the honorary title of Honoured Scientist of the Russian Federation. Dr. Timashev’s career embodies scientific excellence, intellectual breadth, and a lifelong commitment to advancing knowledge in fundamental and applied sciences.

Professional Profile

Education

Serge F. Timashev’s academic foundation reflects his deep and broad engagement with the physical sciences. He commenced his formal studies at Moscow State University, where he earned a Master of Science degree in Physics in January 1960. Pursuing a keen interest in the nuclear domain, he completed his Ph.D. in Nuclear Physics at the Institute of Theoretical and Experimental Physics in Moscow in June 1966, presenting a dissertation on the mechanisms of direct nuclear reactions involving two-nucleon transfers. His academic journey culminated with a Doctor of Science degree in Physics and Mathematics in October 1975 from the Institute of Semiconductor Physics, part of the Siberian Branch of the USSR Academy of Sciences in Novosibirsk. This advanced work focused on optical and electric phenomena in semiconductors containing deep centers and in the presence of electric fields. His educational trajectory not only provided him with a profound understanding of classical and quantum physics but also positioned him to engage in complex, interdisciplinary research. Each milestone in his education expanded his scope, laying the groundwork for his contributions to diverse fields including quantum mechanics, membrane processes, and the analysis of chaotic systems.

Professional Experience

Throughout his career, Serge F. Timashev has held a series of prestigious research and academic positions across leading scientific institutions in Russia. His professional journey began at the Karpov Institute of Physical Chemistry, where he served as a Staff Scientific Researcher from 1963 to 1969. He then moved to the Institute of Physical Chemistry under the USSR Academy of Sciences, working as a Senior Scientific Researcher until 1979. During the next two decades (1979–1999), he led the Laboratory of Membrane Processes at the Karpov Institute, directing innovative studies in membrane chemistry and process engineering. From 1999 to 2018, he continued at the Karpov Institute as a Principal Researcher, spearheading advanced investigations in electrochemistry and signal analysis. Since 2018, Dr. Timashev has served at the National Research Nuclear University MEPhI (Moscow Engineering Physics Institute), where he remains an influential figure in theoretical and applied physical science research. His editorial contributions to major journals such as the Russian Journal of Physical Chemistry and Russian Journal of Electrochemistry further reflect his standing in the academic community. Across all his roles, Dr. Timashev has consistently demonstrated scientific leadership, mentoring, and a commitment to pushing disciplinary boundaries.

Research Interests

Dr. Serge F. Timashev’s research interests are exceptionally broad, encompassing multiple scientific domains, each characterized by depth and innovation. One of his most significant contributions is the development of Flicker-Noise Spectroscopy (FNS), a novel phenomenological method for extracting information from chaotic signals. FNS has applications ranging from signal processing in physics to earthquake prediction and cognitive neuroscience. In membrane science, Dr. Timashev pioneered the study of electropervaporation and switching conductivity in ion-exchange membranes, which has influenced the design of energy-dependent separation technologies. His work in physical chemistry includes groundbreaking theories in membrane transport, fluctuation metrology, and diffusion-controlled chemical kinetics. Dr. Timashev has also contributed significantly to quantum mechanics, where he proposed the concept of EM vacuum polarization to explain particle interactions and gravitation, challenging conventional notions of quantum reality. Moreover, his investigations in global environmental changes emphasize the thermodynamic interconnectedness of the biosphere with cosmic influences, introducing models that blend chemistry, ecology, and astrophysics. From nuclear reactions to fundamental quantum phenomena and ecological systems, Dr. Timashev’s interdisciplinary approach exemplifies a visionary scientific ethos driven by curiosity, rigor, and systemic understanding.

Research Skills

Dr. Timashev’s research skills reflect an extraordinary mastery of theoretical modeling, experimental design, and interdisciplinary integration. He has demonstrated expert competence in developing new scientific methodologies, such as Flicker-Noise Spectroscopy, which integrates statistical mechanics, time series analysis, and signal processing. In membrane science, his ability to correlate physicochemical principles with material properties has enabled the innovation of transport models that mimic biological systems. His theoretical capabilities are further evident in his quantum physics research, where he formulates phenomenological approaches to reinterpret particle behavior, vacuum interactions, and gravitational phenomena. Proficient in applying nonlinear thermodynamics to environmental systems, he also develops predictive models that account for solar-terrestrial interactions. Dr. Timashev is adept at crafting phenomenological theories supported by rigorous mathematical frameworks, as seen in his publications on chemical kinetics, nanosurface analysis, and stochastic processes. His use of advanced spectroscopy techniques, data interpretation methods, and experience with laboratory instrumentation further underscore his technical proficiency. Moreover, his extensive editorial experience across top scientific journals showcases his ability to critically evaluate cutting-edge research. Dr. Timashev’s skillset is marked by intellectual synthesis, mathematical rigor, and a lifelong dedication to advancing knowledge across complex scientific frontiers.

Awards and Honors

Serge F. Timashev’s distinguished contributions to science have been recognized through a series of prestigious awards and honors, reflecting both national and international acclaim. In 1995, he received the Prize of the Russian Federation Government in the field of Science and Technology, a testament to the practical impact and theoretical depth of his work. This was followed in 1996 by the award of the WD Wilson Visiting Fellowship from the Ernest Oppenheimer Memorial Trust in South Africa, highlighting his global scientific engagement and recognition. In 1998, Dr. Timashev was conferred the honorary title of Honoured Scientist of the Russian Federation, acknowledging his lifelong contributions to the advancement of physical chemistry and interdisciplinary research. Beyond formal honors, his status as a long-time editorial board member of several respected journals—including the Russian Journal of Physical Chemistry and the Russian Journal of Electrochemistry—demonstrates his leadership in shaping scholarly discourse. These accolades underscore his enduring influence on the scientific community and his reputation as a pioneering figure in multiple scientific domains. His awards not only affirm his past achievements but also serve as a reflection of his continued relevance in modern scientific inquiry.

Conclusion

The career of Serge F. Timashev stands as a remarkable testament to intellectual versatility, scientific integrity, and enduring curiosity. Across more than six decades of active research, he has made seminal contributions to diverse fields such as nuclear physics, membrane science, chemical kinetics, signal analysis, quantum mechanics, and environmental chemistry. His legacy is defined not only by his innovative theories—like Flicker-Noise Spectroscopy and Casimir polarization—but also by his unique ability to integrate insights across disciplinary boundaries. A prolific author of more than 300 scientific works and several foundational monographs, Dr. Timashev has deeply influenced both theoretical science and applied technologies. His work has been recognized with national awards and international fellowships, and he continues to contribute to the scientific community through mentorship, editorial roles, and ongoing research at MEPhI. In an era that increasingly values interdisciplinary collaboration and complex systems thinking, Dr. Timashev exemplifies the role of a modern scientist: deeply rooted in rigorous theory, yet unafraid to explore uncharted frontiers. His enduring contributions have not only advanced knowledge but also inspired a generation of scientists to pursue bold, integrative research.

Publications Top Notes

  1. Title: Erratum to: Non-Nucleon Metastable Excitations in Nuclear Matter and e– Catalysis As a Quark-Cumulative Mechanism for Initiating Low-Energy Nuclear Chemical Processes: Phenomenology
    Authors: Serge F. Timashev
    Year: 2024

  2. Title: Non-Nucleon Metastable Excitations in Nuclear Matter and e– Catalysis As a Quark-Cumulative Mechanism for Initiating Low-Energy Nuclear Chemical Processes: Phenomenology
    Author: Serge F. Timashev
    Year: 2024

  3. Title: Resolving the Paradox of the Dirac Equation through Phenomenology
    Author: Serge F. Timashev
    Year: 2024

  4. Title: FNS-Parameterization of Irregularities of Solar Activity Dynamic Variables
    Authors: S. A. Demin, V. A. Yunusov, S. F. Timashev, A. V. Minkin
    Year: 2023

  5. Title: Initiation of Artificial Radioactivity of Impurity Elements in a Lead Cathode under Conditions of a Glow Discharge
    Authors: S. F. Timashev, I. B. Savvatimova, S. S. Poteshin, N. I. Kargin, A. A. Sysoev
    Year: 2023

  6. Title: The Phenomenon of Artificial Radioactivity in Metal Cathodes under Glow Discharge Conditions
    Authors: S. F. Timashev, I. B. Savvatimova, S. S. Poteshin, S. M. Ryndya
    Year: 2022

  7. Title: Atom As an Open Dissipative System in the Basic Environment–the Electromagnetic Component of a Physical Vacuum: Phenomenology
    Author: Serge F. Timashev
    Year: 2022
    Citations: 1

  8. Title: On the Physical Nature of Quantum Mechanics and Gravitation: Phenomenology
    Author: Serge F. Timashev
    Year: 2022
    Citations: 4

Pei-Yin Chen | In-Loop Filter | Best Researcher Award

Published on by Applied Scientist

Prof. Pei-Yin Chen | In-Loop Filter | Best Researcher Award

Distinguished Professor at National Cheng Kung University, Taiwan

Professor Pei-Yin Chen is a Distinguished Professor at the Department of Computer Science and Information Engineering at National Cheng Kung University (NCKU), Taiwan. With a deep commitment to innovation and academic excellence, he also serves as the Chief Information Officer at NCKU Hospital. Holding a B.S. and Ph.D. from NCKU and an M.S. from Pennsylvania State University, Dr. Chen has dedicated over two decades to advancing research in VLSI/FPGA design, AI-based image processing, embedded systems, and healthcare information systems. His scholarly influence is recognized globally, having been listed among the “World’s Top 2% Scientists” by Stanford University for three consecutive years. With over 140 peer-reviewed publications, five patents, and five authored books, his work reflects a perfect synergy between academic rigor and practical applications. He has led 38 research projects and over 50 industry collaborations with partners like Qualcomm, AUO, and ITRI. His innovations have significantly impacted sectors ranging from medical informatics to intelligent transportation. Known for his dedication to teaching and student mentorship, Dr. Chen has received numerous awards in academic supervision. His contribution extends beyond academia through leadership roles such as Chair of the IEEE Tainan Section (2024–2025), embodying the role of a transformative researcher and technologist.

Professional Profile

Education

Dr. Pei-Yin Chen’s educational journey is distinguished by a strong foundation in electrical engineering and a lifelong commitment to knowledge acquisition. He earned both his Bachelor of Science (B.S.) and Doctor of Philosophy (Ph.D.) degrees from National Cheng Kung University (NCKU), Taiwan, majoring in Electrical Engineering. To broaden his international exposure and technological insight, he pursued and obtained his Master of Science (M.S.) in Electrical Engineering from the Pennsylvania State University, USA. His academic path reflects a rigorous blend of theoretical grounding and practical exploration, with a focus on developing innovative solutions in engineering and computing. The diverse academic environments of Taiwan and the United States enriched his understanding of both Eastern and Western research methodologies, allowing him to integrate global best practices into his scholarly and applied work. Throughout his academic development, Dr. Chen demonstrated an unwavering passion for VLSI/FPGA design and intelligent systems, which later became central to his research pursuits. His formative education laid the groundwork for a remarkable career spanning embedded systems, AI-powered technologies, and digital health. Dr. Chen’s academic background is not only a testament to personal excellence but also a catalyst for the many breakthroughs he has since contributed to academia and industry alike.

Professional Experience

Dr. Pei-Yin Chen has over 20 years of exemplary professional experience as a professor, researcher, and industry collaborator. He currently holds the esteemed position of Distinguished Professor at the Department of Computer Science and Information Engineering, National Cheng Kung University (NCKU), Taiwan. Additionally, he serves as the Chief Information Officer of the NCKU Hospital IT Office, where he leads initiatives that fuse medical care with advanced information systems. Dr. Chen’s professional trajectory includes not only academic leadership but also robust engagement with the industrial sector. He has led 54 consultancy and collaborative projects with globally recognized companies such as AUO, Qualcomm, UMC, and ASML Taiwan. His work spans the design and development of VLSI circuits, FPGA systems, AI image processing modules, and embedded applications. He has also actively contributed to the digital transformation of healthcare through the implementation of AI-enhanced clinical documentation tools. Dr. Chen is deeply involved in interdisciplinary projects with governmental bodies such as the Ministry of Education and ITRI. His career reflects a balance between academic inquiry and practical execution, ensuring real-world impact. As Chair of the IEEE Tainan Section (2024–2025), he continues to mentor scholars and guide regional technological development.

Research Interest

Dr. Pei-Yin Chen’s research interests span across several high-impact and evolving domains in computer and electronic engineering. His core focus lies in VLSI/FPGA circuit design, where he has contributed innovative architectural solutions that are both efficient and scalable. He is also deeply engaged in AI-based image processing, with applications in medical diagnostics, smart surveillance, and industrial automation. Another major area of his work includes the development of embedded systems—from compact hardware to real-time software—supporting everything from IoT devices to automotive applications. Dr. Chen has also pioneered the design of information systems, particularly in healthcare, where his AI-integrated systems have significantly improved documentation workflows and patient data management. His interdisciplinary approach extends to smart healthcare, satellite image analysis, and privacy-aware computing, integrating machine learning, system architecture, and human-centered design. His projects often bridge academia and industry, ensuring that his research not only advances theoretical knowledge but also solves real-world problems. He is particularly interested in how AI and VLSI can be co-optimized to create intelligent, responsive, and energy-efficient computing solutions for both commercial and societal benefit. His research contributions reflect a unique ability to foresee emerging trends and deliver impactful technologies.

Research Skills

Dr. Pei-Yin Chen possesses a diverse and advanced set of research skills that uniquely position him at the intersection of hardware, software, and AI integration. His expertise in VLSI and FPGA-based circuit design enables the development of high-speed, power-efficient digital systems tailored for real-time and high-volume data processing. In the domain of AI-based image processing, Dr. Chen applies deep learning and advanced pattern recognition techniques to develop intelligent visual systems used in medical, industrial, and transportation contexts. He is proficient in embedded system architecture, allowing him to seamlessly integrate sensors, microcontrollers, and software applications into compact and scalable platforms. Dr. Chen also excels in information system development, particularly in healthcare environments, where he has created privacy-preserving and efficiency-enhancing digital tools for clinical documentation. His technical toolkit includes mastery of programming languages (such as Verilog, Python, and C/C++), machine learning frameworks, system simulation tools, and IC layout design software. His strong interdisciplinary research capabilities are reflected in 38 completed/ongoing research projects and 54 industry collaborations. With more than 140 publications, he also demonstrates a high level of scientific communication and peer engagement, regularly serving as a reviewer for top-tier IEEE journals.

Awards and Honors

Dr. Pei-Yin Chen has earned numerous prestigious awards and honors throughout his academic and professional career, reflecting his profound contributions to engineering, education, and interdisciplinary research. He has been featured in the “World’s Top 2% Scientists” (Career-Long Impact) list compiled by Stanford University and Elsevier for three consecutive years, a recognition of his lasting scholarly influence. At National Cheng Kung University (NCKU), he has received multiple teaching and thesis supervision awards, honoring his dedication to student mentorship and academic excellence. Dr. Chen’s impact extends beyond the university through his editorial contributions as a reviewer for respected IEEE Transactions journals, including Image Processing, Vehicular Technology, and Fuzzy Systems. He has secured five patents, authored five books, and led more than 50 joint academic-industry projects, many of which translated into real-world applications. His leadership has been further recognized through his election as Chair of the IEEE Tainan Section (2024–2025), affirming his influence within Taiwan’s engineering community. These honors collectively reflect Dr. Chen’s commitment to bridging innovative research with educational growth and practical deployment, strengthening both academic inquiry and industrial advancement.

Conclusion

In conclusion, Dr. Pei-Yin Chen exemplifies the qualities of an outstanding applied scientist through his extensive academic contributions, interdisciplinary research, and transformative industry collaborations. As a Distinguished Professor and CIO at National Cheng Kung University, he merges academic leadership with impactful technological deployment. His research spans critical fields such as VLSI/FPGA design, AI-based image processing, and embedded systems, and has directly influenced industries including healthcare, transportation, and semiconductors. Dr. Chen’s extensive record—over 140 peer-reviewed publications, five patents, and collaborations with leading firms like AUO, Qualcomm, and ITRI—demonstrates a rare ability to translate innovation into real-world solutions. His inclusion in the “World’s Top 2% Scientists” for consecutive years highlights his enduring scholarly significance. Beyond technical achievements, his leadership as Chair of IEEE Tainan and his commitment to mentoring the next generation underscore a career built on both excellence and service. Dr. Chen is not only a pioneer in research but also a bridge-builder between academia and society. His holistic approach to research, education, and collaboration makes him exceptionally well-suited for the Best Research Scholar Award, aligning with the vision of the Applied Scientist Awards to recognize innovation with meaningful societal impact.

Publications Top Notes

  1. Title: Low complexity underwater image enhancement based on dark channel prior
    Authors: HY Yang, PY Chen, CC Huang, YZ Zhuang, YH Shiau
    Year: 2011
    Citations: 227

  2. Title: An efficient edge-preserving algorithm for removal of salt-and-pepper noise
    Authors: PY Chen, CY Lien
    Year: 2008
    Citations: 197

  3. Title: An efficient hardware implementation of HOG feature extraction for human detection
    Authors: PY Chen, CC Huang, CY Lien, YH Tsai
    Year: 2013
    Citations: 125

  4. Title: An efficient denoising architecture for removal of impulse noise in images
    Authors: CY Lien, CC Huang, PY Chen, YF Lin
    Year: 2012
    Citations: 114

  5. Title: Hardware implementation of a fast and efficient haze removal method
    Authors: YH Shiau, HY Yang, PY Chen, YZ Chuang
    Year: 2013
    Citations: 110

  6. Title: VLSI implementation for one-dimensional multilevel lifting-based wavelet transform
    Author: PY Chen
    Year: 2004
    Citations: 109

  7. Title: A low-complexity interpolation method for deinterlacing
    Authors: PY Chen, YH Lai
    Year: 2007
    Citations: 91

  8. Title: The gray prediction search algorithm for block motion estimation
    Authors: JM Jou, PY Chen, JM Sun
    Year: 1999
    Citations: 82

  9. Title: VLSI implementation of an edge-oriented image scaling processor
    Authors: PY Chen, CY Lien, CP Lu
    Year: 2009
    Citations: 79

  10. Title: An adaptive fuzzy logic controller: Its VLSI architecture and applications
    Authors: JM Jou, PY Chen, SF Yang
    Year: 2000
    Citations: 75

Semaa Khaleel | Chemical Engineering | Best Researcher Award

Published on by Applied Scientist

Dr. Semaa Khaleel | Chemical Engineering | Best Researcher Award

Lecturer at Department of Petroleum and Refining Engineering, College of Petroleum and Mining Engineering, University of Mosul, Iraq

Dr. Semaa I. Khaleel is a dedicated academic and researcher currently serving as a Lecturer at the Department of Petroleum and Refining Engineering, College of Petroleum and Mining Engineering, University of Mosul, Iraq. With a strong foundation in chemistry, she has continuously advanced in academia, obtaining her B.Sc., M.Sc., and Ph.D. from Mosul University. Her scholarly journey is marked by a passion for applied research, focusing on innovative materials and environmental sustainability. Dr. Khaleel has taught a wide range of undergraduate courses and mentored students across diverse subjects related to petroleum engineering. Her expertise lies in developing and modifying materials such as activated carbon and biofuels, contributing to clean energy and waste utilization solutions. She has led and completed several impactful research projects, and her contributions are particularly noteworthy in the areas of adsorption technologies and asphalt modification. Committed to both research and teaching excellence, she maintains active profiles on global research platforms including Google Scholar, ResearchGate, and ORCID. As an emerging voice in her field, Dr. Khaleel exemplifies the qualities of a modern scientist—bridging theory and practice with innovation and integrity. Her academic rigor, combined with her practical approach to problem-solving, makes her a strong contender for the Best Researcher Award.

Professional Profile

Education

Dr. Semaa I. Khaleel’s academic journey is deeply rooted in the prestigious Mosul University, where she earned all her degrees in Chemistry, reflecting her unwavering dedication to scientific inquiry and academic excellence. She obtained her Bachelor of Science degree in 2002, laying the groundwork for a career centered on chemical and environmental science. Driven by an early interest in applied chemistry, she pursued her Master of Science in 2009, further honing her analytical skills and expanding her theoretical foundation. Her graduate research emphasized the role of chemical processes in industrial and environmental applications, a theme that continued throughout her doctoral studies. In 2018, Dr. Khaleel completed her Ph.D. in Chemistry, focusing on advanced materials and adsorption technologies, which later became the core of her academic and research interests. Her doctoral work has significantly influenced her contributions to petroleum refining, asphalt rheology, and sustainable fuel technologies. The continuum of her education within a single institution also illustrates her long-term commitment to the development of scientific research in Iraq. This strong educational background, paired with her practical and teaching experience, has uniquely positioned her to contribute meaningfully to academia, industrial innovation, and student mentorship at the University of Mosul.

Professional Experience

Since 2018, Dr. Semaa I. Khaleel has served as a Lecturer at the Department of Petroleum and Refining Engineering, College of Petroleum and Mining Engineering, University of Mosul. Her professional responsibilities include teaching various undergraduate-level subjects that intersect chemistry and petroleum engineering. Her courses are designed to integrate theoretical concepts with real-world industrial applications, reflecting her belief in experiential learning. Beyond her teaching duties, she plays a critical role in guiding student projects, supervising laboratory work, and supporting departmental academic development. Dr. Khaleel has also actively participated in curriculum development to align educational programs with emerging industry trends in sustainable fuels and advanced materials. Parallel to her teaching, she has successfully completed five research projects and is currently engaged in three ongoing investigations related to activated carbon production, biofuel synthesis, and rheological modification of asphalt. Her collaborations with other departments and institutions showcase her commitment to multidisciplinary research. She has maintained professional affiliations with engineering and chemistry societies, and her contributions have extended to consultation on environmentally conscious refining processes. With a career that balances research innovation and pedagogical effectiveness, Dr. Khaleel continues to demonstrate a strong impact in academia and the applied sciences sector in Iraq and beyond.

Research Interest

Dr. Semaa I. Khaleel’s research interests are deeply rooted in applied chemistry with a focus on sustainability and industrial relevance. Her primary research themes include the development and utilization of activated carbon, biofuels, rheological modification of asphalt, polymer chemistry, and diesel fuel analysis. She is particularly known for her innovative approaches in using agricultural and industrial waste materials to synthesize activated carbon for environmental applications such as dye adsorption and water purification. Her work in asphalt modification investigates the use of chemical treatments and polymers to enhance the performance and durability of paving materials under extreme conditions. Another area of interest is the thermodynamic and kinetic studies of adsorption processes, where she has contributed new insights into how low-cost carbon materials interact with dyes and pollutants. Dr. Khaleel also explores biofuel production pathways that are efficient and sustainable, aligning with global efforts to reduce carbon emissions and fossil fuel dependency. Her interdisciplinary approach allows her to connect materials science, environmental engineering, and petroleum technology. Through these focal areas, she aims to contribute practical solutions to pressing environmental and energy challenges while advancing fundamental understanding of material behavior and chemical interactions.

Research Skills

Dr. Semaa I. Khaleel possesses a comprehensive set of research skills that enable her to navigate and contribute meaningfully across multiple areas of applied and analytical chemistry. She is adept in experimental design, data analysis, and statistical modeling, particularly within the context of adsorption processes and thermodynamic studies. Her lab expertise includes activated carbon synthesis, polymer blending, and biofuel refinement, using methods like chemical activation, distillation, and surface modification techniques. Dr. Khaleel is highly proficient in UV-Vis spectrophotometry, FTIR spectroscopy, and thermal analysis, which she applies to characterize materials and investigate their physicochemical properties. She also brings competence in kinetic modeling, having conducted studies that explore adsorption mechanisms and isotherm behavior. Additionally, she is skilled in academic writing, project reporting, and preparing manuscripts for peer-reviewed journals. With five completed research projects and three currently underway, she has demonstrated her capacity for long-term research planning, proposal writing, and collaboration. Her familiarity with platforms such as Google Scholar, ResearchGate, and ORCID reflects her active engagement with the global research community. Collectively, her practical skills, analytical mindset, and commitment to scientific rigor position her as a strong candidate for recognition through research awards.

Awards and Honors

While formal awards may not yet fully reflect Dr. Semaa I. Khaleel’s academic merit, her accomplishments and growing recognition in the field signal her increasing impact as a researcher. Being appointed as a Lecturer at the University of Mosul, a prestigious public university in Iraq, stands as a significant professional achievement and acknowledgment of her academic excellence. Her continuous teaching role since 2018 demonstrates trust in her educational capability and technical knowledge. Her research contributions, such as the production of activated carbon from waste materials and her kinetic studies on adsorption, have positioned her as a promising researcher in the sustainable materials domain. She has successfully led multiple projects, collaborated across disciplines, and published peer-reviewed work. In an academic environment where resources may be limited, her ability to conduct meaningful research with practical implications is a testimony to her ingenuity and dedication. Through her participation in academic conferences, student mentorship, and growing citation record, Dr. Khaleel is steadily building her reputation. She is now being considered for the Best Researcher Award, which would serve as a fitting recognition of her hard work, scientific contributions, and her unwavering commitment to academic and research excellence in Iraq and beyond.

Conclusion

Dr. Semaa I. Khaleel exemplifies the qualities of a dynamic and impactful researcher whose work bridges theoretical innovation with practical utility. From her academic training in chemistry at Mosul University to her current role as a lecturer and researcher, she has continually demonstrated intellectual rigor, commitment to education, and a passion for sustainability. Her research into activated carbon production, asphalt modification, and alternative fuels addresses some of the most pressing global challenges—resource recovery, pollution mitigation, and energy efficiency. Her projects, often centered on converting waste into value-added products, showcase a resourceful and environmentally conscious mindset. Moreover, her dedication to teaching has influenced a new generation of petroleum engineers and chemists, especially in a region where scientific advancement is both challenging and essential. Her active involvement in research, publication, and professional collaboration illustrates her readiness for greater responsibility and recognition. Being nominated for the Best Researcher Award is a timely and well-deserved acknowledgment of her contributions to applied science. With continued support, Dr. Khaleel is poised to make even greater impacts, not only through academic achievements but also by fostering innovation that serves society and the environment.

Publications Top Notes

Title: A Thermodynamic and Kinetic Study for Adsorption of a Number of Dyes from their Aqueous Solutions on a New Kind of Activated Carbon Prepared by Pomegranate (Punica Granatum)
Authors: E.A.S. Al-Hyali, A.A.H. Al-Khazraji, S.I.K. Al-Taey
Year: 2016
Citations: 1

Title: A Statistical Study Comparing Experimental and Theoretical Yields of Activated Carbon Prepared from Pomegranate (Punica granatum) Peels via Chemical Treatment
Authors: S.I. Khaleel, A.A.H. Al-Khazraji, E.A.S. Al-Hyali
Year: 2024

Title: Preparation of New Types of Activated Carbon and Testing Their Efficiency by the Adsorption of Some Dyes, Thermodynamic and Kinetic Studies
Authors: K. Semaa, H. Ammar, A.L.H. Emad
Year: 2017

Title: Extraction of Amino Acids from Their Aqueous Solutions by Using Derivatives of Polyethylene
Authors: S.I.K., Asaad F. Khattab
Year: 2016

Title: Studying Thermodynamic and Kinetic as for the Adsorption of a Number of Dyes from their Aqueous Solutions on a New Kind of Activated Carbon Prepared by the Residues Vacuum Distillation of Air Oxidation for Beji Asphalt by Chemical Treatment
Authors: A.A.H. Al-Khazraji, E.A.S. Al-Hyali, S.I.K. Al-Taey
Year: 2016

Md Atiqur Rahman | Bio Composite | Best Researcher Award

Published on by Applied Scientist

Mr. Md Atiqur Rahman | Bio Composite | Best Researcher Award

University of Bolton, United Kingdom

MD Atiqur Rahman is an accomplished academic and aerospace engineering professional with over nine years of experience in aeronautical education and research. Currently serving as a Lecturer at Blackpool & The Fylde College and a Ph.D. researcher at the University of Bolton, UK, he has demonstrated unwavering commitment to teaching excellence and research innovation. His expertise encompasses aerodynamics, propulsion systems, materials science, and sustainable bio-composites for aerospace and automotive applications. Rahman is widely respected for his ability to design effective learning materials and assessments aligned with institutional and employer standards, contributing significantly to student success and institutional reputation. His teaching portfolio spans several institutions in both the UK and Bangladesh, covering FE and HE programs including BTEC Pearson, City & Guilds, and EAL qualifications. Beyond teaching, he serves as a Standard Verifier for BTEC Pearson and an academic board member of a peer-reviewed journal. His research has produced six publications on alkali-treated Borassus husk fiber bio-composites, with ongoing contributions to next-generation sustainable materials. Recognized for excellence in both teaching and research, including a “Best Lecturer” award, Rahman is an adaptable team player whose professional journey reflects dedication, leadership, and a strong commitment to innovation in engineering education and sustainability.

Professional Profile

Education

MD Atiqur Rahman has pursued a progressive and research-intensive academic journey in the field of aerospace and mechanical engineering. He is currently completing a Doctor of Philosophy (Ph.D.) by Thesis at the University of Bolton in the United Kingdom, where his research focuses on sustainable natural fiber-based bio-composites for aerospace and automotive applications. His doctoral work builds upon his Master of Philosophy (MPhil) in Mechanical Engineering, also awarded by the University of Bolton, which he pursued from July 2022 to November 2024. His MPhil thesis laid the groundwork for advanced research into the thermal and mechanical behavior of treated Borassus husk fibers. Prior to his postgraduate research, Rahman earned a Bachelor of Engineering (Honours) degree in Aerospace Engineering from the University of Hertfordshire, UK, in 2012. His undergraduate training provided a strong foundation in fluid mechanics, propulsion systems, aircraft structures, and engineering design. Throughout his academic progression, he has actively combined theoretical learning with hands-on research in materials science and aerodynamics. His educational achievements are complemented by his proficiency in software such as SolidWorks, Fusion 360, ANSYS, and MATLAB, enabling him to bridge design and analysis with real-world engineering problems. His academic trajectory reflects both depth in research and excellence in instruction.

Professional Experience

MD Atiqur Rahman’s professional experience spans a dynamic mix of teaching, curriculum development, academic leadership, and engineering research. He currently serves as an Engineering Lecturer at Blackpool & The Fylde College, where he designs and delivers course materials, assessments, and lab experiences aligned with Lancaster University and industry expectations. In this role, he teaches and manages engineering students and apprentices up to Level 6, and supports module leaders and academic staff with standard verification and quality assurance. Previously, Rahman taught Aeronautical Engineering at Preston College, where he significantly enhanced student engagement and promoted course offerings through open days. At the University of Bolton, he served as a Mechanical Engineering Lecturer on a variable hours basis, contributing to module delivery, exam invigilation, and hands-on student support. In Bangladesh, he held multiple teaching and verification roles at Cambrian International College of Aviation and United College of Aviation, Science & Management, where he led BTEC Pearson programs and staff training. His leadership in curriculum design and internal quality assurance earned institutional accolades, including the 2022 “Best Lecturer” award. With a student-centric approach, Rahman has consistently demonstrated excellence in academic delivery, program development, and mentoring across both further and higher education sectors.

Research Interest

MD Atiqur Rahman’s research interests lie at the intersection of sustainable materials engineering, aerospace applications, and composite innovation. His primary focus is on the development and characterization of natural fiber-based bio-composites, particularly from Borassus flabellifer husks, aimed at replacing synthetic materials in aerospace and automotive sectors. This interest stems from a growing global need for environmentally friendly materials with high performance, low cost, and reduced carbon footprints. His doctoral research investigates the mechanical, thermal, morphological, and chemical properties of alkali-treated natural fibers reinforced in epoxy matrices, targeting applications in high-stress environments. His published studies explore dynamic mechanical analysis, outgassing behaviors, and thermal resistance, contributing valuable insights to materials science. Rahman is also deeply engaged in understanding aerodynamic behavior under hypersonic conditions, fluid dynamics, and propulsion system integration. Additionally, he is interested in advanced testing methodologies, simulation through ANSYS and MATLAB, and optimization of composite structures. His interdisciplinary approach bridges the gap between theoretical modeling and experimental validation, with a long-term goal of enabling greener, lighter, and stronger engineering solutions. Through conferences and journal board memberships, he actively collaborates across institutions and disciplines to push the boundaries of sustainable aerospace engineering.

Research Skills

MD Atiqur Rahman possesses a robust suite of research skills encompassing experimental design, advanced material testing, finite element analysis, and composite fabrication. His research expertise is rooted in his doctoral investigations into Borassus husk fiber-reinforced epoxy composites, where he has performed extensive testing of thermal, chemical, and mechanical properties. He is proficient with equipment such as TGA, DSC, DMA, and Instron tensile testing machines, enabling accurate measurement of structural behavior under diverse conditions. His familiarity with FTIR spectroscopy, pycnometry, and composite lay-up techniques ensures hands-on competence in both qualitative and quantitative analysis. In the domain of computational modeling, Rahman uses SolidWorks and Fusion 360 for CAD, and ANSYS for structural and fluid simulations, applying these tools for design validation and performance prediction. He also uses MATLAB for simulation and mathematical modeling. His academic training in structural mechanics, propulsion systems, and aerodynamic testing—complemented by experience using wind tunnels—enhances his ability to evaluate complex engineering systems. In addition, Rahman has strong data analysis and academic writing skills, demonstrated by his peer-reviewed publications. His holistic research capabilities position him as a capable innovator in sustainable aerospace and mechanical systems.

Awards and Honors

MD Atiqur Rahman has received numerous accolades throughout his academic and professional career, underscoring his excellence in both teaching and research. Notably, he was honored as the “Best Lecturer” in 2022 at Cambrian International College of Aviation in Bangladesh, a testament to his exceptional instructional capabilities, curriculum leadership, and student-centered approach. Additionally, one of his students was awarded the prestigious “BTEC Engineering Learner of the Year 2021 Bronze Award,” reflecting his ability to inspire and guide learners to achieve academic distinction. Rahman was recently appointed as a Standard Verifier by BTEC Pearson, UK—an endorsement of his academic integrity, subject-matter expertise, and commitment to quality assurance in engineering education. His research excellence is reflected in six peer-reviewed publications on novel bio-composite materials, with additional articles under review. Rahman has also been invited to participate in high-profile conferences and seminars, including events hosted by the Royal Aeronautical Society and Government Education bodies, addressing cutting-edge topics such as hypersonic flight and BAME student outcomes. His membership in esteemed organizations like the Royal Aeronautical Society and the Institution of Structural Engineers further attests to his recognized standing in the academic and engineering communities.

Conclusion

In conclusion, MD Atiqur Rahman exemplifies a modern engineering educator and researcher who seamlessly blends academic rigor with practical innovation. With a career spanning over nine years, he has cultivated deep expertise in aerospace systems, composite materials, and engineering education, making significant contributions across institutions in the UK and Bangladesh. His work stands out for its focus on sustainability, demonstrated by his pioneering research on Borassus husk-based bio-composites aimed at advancing green aerospace and automotive technologies. Rahman’s dedication to student success, as reflected in his teaching roles, curriculum leadership, and institutional recognition, speaks to his impact as an educator. His involvement with professional bodies, participation in high-level conferences, and ongoing publication record further underscore his commitment to continuous learning and scholarly excellence. A dynamic communicator, skilled researcher, and effective mentor, Rahman is poised to make continued contributions to engineering education and sustainable innovation. His ability to bridge theoretical concepts with real-world applications—both in the classroom and the lab—positions him as a transformative force in the evolving field of aerospace and mechanical engineering. His journey reflects perseverance, passion, and a vision for engineering that is both advanced and environmentally conscious

Publications Top Notes

  1. Title: Palmyra Palm Shell (Borassus flabellifer) Properties Part 1: Insights Into Its Physical and Chemical Properties
    Authors: MA Rahman, M Ndiaye, B Weclawski
    Year: 2025
    Citations: 9

  2. Title: Palmyra Palm Shell (Borassus flabellifer) Properties Part 2: Insights Into Its Thermal and Mechanical Properties
    Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
    Year: 2025
    Citations: 8

  3. Title: Palmyra Palm Shell (Borassus flabellifer) Properties Part 3: Insights Into Its Morphological, Chemical, and Thermal Properties After Alkali Treatment
    Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
    Year: 2025
    Citations: 7

  4. Title: Dynamic Mechanical Analysis of Borassus Husk Fiber Reinforced Epoxy: Evaluating Suitability for Advanced Aerospace and Automotive Applications
    Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
    Year: 2025
    Citations: 4

  5. Title: Optimizing Borassus Husk Fibre/Epoxy Composites: A Study on Physical, Thermal, Flexural and Dynamic Mechanical Performance
    Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
    Year: 2025
    Citations: 3

  6. Title: Next-Generation Bio-Composites: Alkali-Treated Borassus Husk Fiber for Structural and Thermal Efficiency
    Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
    Year: 2025

  7. Title: Enhancing Thermal and Viscoelastic Properties of Alkali-treated Borassus Husk Fibre Reinforced High-heat Resistant Epoxy Composites
    Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
    Year: 2025

  8. Title: Alkali-treated Borassus Husk Fibre Reinforced High-heat Resistant Epoxy Composites: Insights into Their Thermal, Dynamic Mechanical and Outgassing Properties
    Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
    Year: 2025

Zheng Liu | Material Science | Best Researcher Award

Published on by Applied Scientist

Mr. Zheng Liu | Material Science | Best Researcher Award

Assistant Professor at College of Material Science and Engineering, State Ker Laboratory of Materials Low-Carbon Recycling, Beijing University of Technology, China

Zheng Liu is an emerging researcher specializing in materials science with a particular focus on glass composites, sealing technologies, and structural relaxation mechanisms. Currently serving as a Research Associate at the State Key Laboratory of Materials Low-Carbon Recycling, College of Material Science and Engineering, Beijing University of Technology, Dr. Liu is committed to advancing the fundamental understanding and practical performance of glass-to-metal sealing systems. His academic path began with a Bachelor’s degree in Powder Metallurgy at Central South University and was furthered by a rigorous doctoral program at the Institute of Nuclear and New Energy Technology, Tsinghua University. With a strong foundation in both theoretical analysis and applied research, he has authored numerous impactful publications in top-tier journals such as the Journal of the American Ceramic Society, Ceramics International, and Physical Chemistry Chemical Physics. His research has garnered recognition and funding from the National Natural Science Foundation of China. Zheng Liu is driven by a mission to enhance material reliability in high-temperature and energy environments, and he continues to contribute to China’s innovation landscape through both research excellence and collaborative efforts in materials engineering.

Professional Profile

Education

Zheng Liu pursued his academic training at two of China’s most prestigious institutions, establishing a robust interdisciplinary foundation in materials science. He earned his Bachelor’s degree in Powder Metallurgy from the Powder Metallurgy Research Institute at Central South University, Changsha, between 2016 and 2020. During this period, he gained essential knowledge in advanced ceramics, metallurgy, and composite materials, which laid the groundwork for his future specialization in sealing and glass systems. To deepen his scientific rigor and research capabilities, he then enrolled in a Ph.D. program at the Institute of Nuclear and New Energy Technology, Tsinghua University, from September 2020 to June 2025. His doctoral work focused on the atomic-level dynamics of glass and glass-metal interfaces, a subject vital to energy applications and thermal engineering. Through his education, he acquired sophisticated analytical skills and became proficient in spectroscopic and computational tools, all of which are critical to understanding complex glass behaviors. These formative academic experiences equipped him with a unique blend of theoretical insight and practical proficiency, empowering him to tackle key challenges in low-carbon material development and glass sealing technologies.

Professional Experience

Zheng Liu began his professional research career in July 2025 as a Research Associate at the Beijing University of Technology, affiliated with the State Key Laboratory of Materials Low-Carbon Recycling in the College of Material Science and Engineering. His role involves leading and collaborating on critical projects related to glass-to-metal sealing, structural relaxation, and thermal-mechanical behavior in advanced materials. In this capacity, Dr. Liu applies his deep knowledge of borosilicate glass systems and their interaction with metallic substrates, particularly under high-temperature conditions. His responsibilities also include conducting photoluminescence spectroscopy, finite-element modeling, and thermal analysis to study stress evolution and interfacial behavior. Working in a multidisciplinary research environment, he coordinates with fellow scientists and engineers to translate theoretical knowledge into materials that meet industrial demands for efficiency, durability, and environmental sustainability. Prior to this appointment, his doctoral work was enriched with hands-on research projects and collaborations across materials science labs, where he demonstrated the ability to manage complex experiments and publish impactful findings. His early career reflects a strong trajectory of research commitment, innovative thinking, and technical excellence, setting the stage for significant contributions in the field of structural materials and sustainable engineering.

Research Interest

Zheng Liu’s research interests lie at the intersection of materials science, nuclear engineering, and applied physics, with a focus on glass/glass composite systems, advanced sealing materials, and structural relaxation phenomena. He is particularly intrigued by the mechanical behavior of glass-to-metal seals under thermal and mechanical stress, aiming to enhance their stability, performance, and longevity. A significant portion of his research explores the residual stress mechanisms in glass composites, with an emphasis on how glass solidification and interfacial bonding affect stress distribution. His investigations extend into photoluminescence spectroscopy as a tool for detecting microregion stress and the use of finite-element modeling for predictive stress analysis. Dr. Liu is also committed to understanding how additives like alumina nanoparticles influence glass properties at the atomic and structural levels. These interests are deeply aligned with developing next-generation sealing materials for nuclear, aerospace, and energy systems. His current work contributes to the broader scientific goal of optimizing the thermal-mechanical integration of dissimilar materials. Driven by real-world applications and sustainability concerns, Dr. Liu seeks to advance low-carbon material solutions that can withstand harsh environments while maintaining functional integrity over extended service lives.

Research Skills

Zheng Liu possesses a comprehensive suite of research skills that underpin his cutting-edge work in materials science. He is proficient in a wide range of experimental techniques including photoluminescence spectroscopy, X-ray diffraction, thermal analysis (DSC/TGA), and electron microscopy (SEM/TEM), which he uses to characterize material interfaces and microstructural behavior. Additionally, he has strong expertise in finite-element modeling and simulation tools to investigate stress distribution and failure mechanisms in glass-to-metal seals. His ability to design and implement experiments on glass solidification and bonding behavior is supported by his deep understanding of structural relaxation at atomic and macroscopic scales. Zheng Liu is also adept at statistical analysis and data interpretation, ensuring the rigor and reliability of his findings. His experience with high-temperature furnace systems and controlled atmosphere conditions enables him to replicate industrial sealing environments accurately. Beyond technical skills, Dr. Liu has honed his scientific writing, grant proposal development, and collaborative research management, allowing him to contribute effectively to multidisciplinary teams. With a focus on precision, innovation, and problem-solving, his skill set is aligned with the demands of modern materials research and application in energy and structural systems.

Awards and Honors

Zheng Liu’s promising research career has already been recognized with prestigious support and accolades. Most notably, he secured funding from the National Natural Science Foundation of China (Grant No. 523B2008) for the period of May 2024 to December 2025. This grant is a testament to the national recognition of his innovative work in glass-to-metal seals and low-carbon materials. His scientific contributions have resulted in the publication of eleven peer-reviewed articles in high-impact journals such as Journal of the American Ceramic Society, AIP Advances, and Ceramics International. Several of these papers have addressed critical issues in stress distribution and interfacial bonding, providing novel insights into thermal-mechanical behavior in composite materials. His ability to consistently publish significant research has earned him a growing reputation among peers and senior academics alike. During his doctoral and undergraduate studies, he was also likely to have received institutional recognitions for academic excellence and research engagement, although specific honors were not explicitly detailed. His early-career achievements position him as a rising figure in the field of functional materials for high-performance and energy-critical applications.

Conclusion

Zheng Liu stands out as a talented early-career researcher with a focused expertise in glass composites and sealing technologies, poised to make lasting contributions to the field of materials science. His academic foundation, built at Central South University and Tsinghua University, is complemented by a robust portfolio of research that bridges theoretical investigation with practical application. Now serving as a Research Associate at the Beijing University of Technology, he applies his skills to address critical challenges in low-carbon materials and energy systems. His publications reveal a consistent dedication to solving real-world problems, particularly in the optimization of glass-to-metal seals and structural integrity under stress. Funded by the National Natural Science Foundation of China, Zheng Liu continues to build a body of work that is both scientifically rigorous and industrially relevant. With strong analytical abilities, technical proficiency, and a clear vision for sustainable materials innovation, he represents the next generation of scholars committed to transforming the way we understand and engineer functional materials. His career trajectory suggests a future rich with discovery, collaboration, and meaningful societal impact in the domain of energy-efficient and high-performance materials.

Publications Top Notes

  1. Title: Assessing residual stress generation and entrapment in glass-to-metal seals: role of glass solidification during the cooling process
    Authors: Keqian Gong, Chao Zhou, Zheng Liu, Zifeng Song, Zhangjing Shi, Weisong Zhou, Yong Zhang
    Year: 2025

  2. Title: Atomic origin and dynamics of structural relaxation in borosilicate glass below glass transition temperature
    Authors: Zheng Liu, Keqian Gong, Zifeng Song, Chao Zhou
    Year: 2025

  3. Title: Strain rebound and inhomogeneity in glass-to-metal seals: Radial vs axial strain evolution
    Authors: Keqian Gong, Zheng Liu, Zifeng Song, Chao Zhou, Zhangjing Shi, Siyue Nie, Weisong Zhou, He Yan, Zhichun Fan, Yong Zhang
    Year: 2025

  4. Title: Revealing the effect of alumina addition on the residual stress in glass-to-metal seals via photoluminescence spectroscopy
    Authors: Keqian Gong, Zheng Liu, Yangyang Cai, Zifeng Song, Chao Zhou, Jing Liu, Yuna Zhao, Yong Zhang
    Year: 2024

  5. Title: Sealing Ni-Cr/Ni-Al alloys with borosilicate glass: Bonding strength, sealing interface, and fracture behavior
    Authors: Zheng Liu, Chao Zhou, Keqian Gong, Yanfei Sun, Cheng Ren, Zifeng Song, Zhangjing Shi, Yong Zhang
    Year: 2024

  6. Title: Assessment of residual stress evolution in glass-to-metal seals amid heating process: Insights from in situ observations and finite-element analysis
    Authors: Keqian Gong, Zifeng Song, Yangyang Cai, Zheng Liu, Zhangjing Shi, Chao Zhou, He Yan, Yong Zhang
    Year: 2024

  7. Title: Strength, microstructure and bonding mechanism of borosilicate glass-to-SA105 carbon steel seals
    Authors: Zheng Liu, Yangyang Cai, Keqian Gong, Chao Zhou, Chen Wang, Yuna Zhao, Yong Zhang
    Year: 2024

  8. Title: Photoluminescence spectroscopy to detect microregion stress distribution in glass‐to‐metal seals
    Authors: Zheng Liu, Keqian Gong, Yangyang Cai, Zhen Chen, Yong Zhang
    Year: 2024

  9. Title: Calibration for determination of compressive stress in glass‐to‐metal seals via photoluminescence spectroscopy
    Authors: Zheng Liu, Yangyang Cai, Keqian Gong, Weisong Zhou, Fengen Chen, Yong Zhang
    Year: 2024

  10. Title: Optimization mechanism and high-temperature properties of Al₂O₃/Cu-reinforced sealing glass
    Authors: Yangyang Cai, Zheng Liu, Keqian Gong, He Yan, Yuna Zhao, Yong Zhang
    Year: 2024

  11. Title: Effects of Al₂O₃ nanoparticles on the properties of glass matrix composites for sealant applications
    Authors: Zheng Liu, Keqian Gong, Chao Zhou, Zifeng Song, Yong Zhang
    Year: 2023

Laura Madeo | Biotechnology Awards | Applied Scientist Award

Published on by Applied Scientist

Dr. Laura Madeo | Biotechnology Awards | Applied Scientist Award

Health Researcher at Experimental Zooprophylactic Institute of Umbria and Marche, Italy

Dr. Laura Madeo is a dedicated Italian molecular biologist with extensive experience in laboratory diagnostics, clinical biochemistry, and applied research in veterinary and food safety fields. Born on August 10, 1978, she currently holds a permanent position as a Healthcare Researcher at the Istituto Zooprofilattico Sperimentale dell’Umbria e delle Marche (IZSUM). Her expertise spans from immunodiagnostics to molecular biology techniques, particularly real-time PCR, ELISA, and protein expression systems. Over the years, she has made significant contributions to animal health and zoonotic disease research, focusing on tuberculosis diagnosis, OGM detection, and vaccine development. Her work has led to numerous publications in peer-reviewed international journals and participation in key national and European conferences. Registered in the Italian Biologists Register (Section A), Dr. Madeo is also proficient in data analysis, scientific writing, and quality assurance processes in laboratory settings. Alongside her scientific achievements, she demonstrates strong interpersonal skills and a passion for the arts, including music and photography. Her professional journey illustrates a firm commitment to integrating academic research with practical applications in public and animal health, showcasing her as a competent and versatile figure in molecular and diagnostic biology.

Professional Profile

Scopus Profile

ORCID Profile

Education

Dr. Laura Madeo has cultivated a rich academic background that underpins her extensive scientific expertise. She earned her Master’s Degree in Biological Sciences with a specialization in ecological biology from the University of Perugia in 2005, graduating with full honors (110/110 e lode). Her thesis focused on the taxonomy and geographic distribution of freshwater bryozoans in Lake Trasimeno, utilizing advanced microscopy techniques. In 2006, she passed the state examination to become a certified biologist. Further enhancing her qualifications, she completed her Ph.D. in Plant Biology and Agro-environmental Biotechnology in 2009 at the University of Perugia, conducting experimental research on cysteine-rich receptor kinases in Arabidopsis under stress conditions. Continuing her education, she specialized in Clinical Biochemistry at the University of Rome “Tor Vergata” in 2016, acquiring in-depth knowledge of diagnostic pathology and molecular techniques applicable to human and veterinary medicine. These educational achievements have provided her with the theoretical foundation and technical skillset necessary to conduct high-level research, develop diagnostic assays, and contribute meaningfully to both academic and applied scientific domains.

Professional Experience

Dr. Madeo has a comprehensive and varied professional trajectory spanning over fifteen years, marked by progressive responsibilities in both research and laboratory diagnostics. Since January 2024, she serves as a permanent Healthcare Researcher at IZSUM, leading bovine tuberculosis diagnosis through Gamma Interferon testing and contributing to method validation, interlaboratory circuits, and scientific publications. From 2019 to 2023, she held the same position on a fixed-term basis, focusing on clinical chemistry, hematology, and COVID-19 testing. Previously, from 2016 to 2019, she worked on zoonotic pathogen detection in wildlife through innovative diagnostic methods. Her earlier roles include key contributions to recombinant vaccine development, OGM traceability methods, and gene expression studies in plants. Notably, her international experience at the John Innes Centre in the UK broadened her research on plant-pathogen interactions. Additional experiences range from teaching science and math to middle school students to providing technical support for pharmaceutical master programs. Her professional versatility is further reflected in her participation in multiple EU and national research initiatives, highlighting her ability to bridge laboratory practice with real-world applications in veterinary and food safety sectors.

Research Interests

Dr. Laura Madeo’s research interests reflect a strong commitment to improving diagnostic tools and understanding molecular mechanisms underpinning animal and plant health. Her primary focus lies in the application of molecular biology to veterinary diagnostics, particularly for the detection of zoonotic diseases such as bovine tuberculosis. She has shown a long-standing interest in the development and validation of rapid diagnostic assays, including ELISA, real-time PCR, and immunofluorescence methods, for both infectious diseases and genetically modified organisms (GMOs). Her academic background in plant biotechnology continues to influence her interdisciplinary approach, evidenced by her research on Arabidopsis thaliana receptor kinases and plant-pathogen signaling pathways. Dr. Madeo is also invested in the development of recombinant vaccines and the production of virus-like particles for immunization and diagnostics. Her recent studies on biomarkers, such as microRNAs and immune profiling in cattle, underline her engagement with translational research. Additionally, her collaboration with international and national partners has expanded her research into animal welfare and food safety, placing her at the intersection of basic research and its practical implementation in public health.

Research Skills

Dr. Madeo is highly skilled in a broad range of molecular biology and diagnostic techniques. She excels in PCR-based technologies, including end-point PCR, real-time PCR with TaqMan probes, and multiplex assays, particularly for pathogen detection and GMO identification. She is proficient in DNA/RNA extraction from complex matrices, protein expression and purification using baculovirus-insect cell systems, ELISA assay development, comet assay for DNA damage, and immunofluorescence techniques. Dr. Madeo has extensive experience with chromatographic purification methods, ultracentrifugation, and analytical validation of new diagnostic protocols. She is adept at data analysis using software such as SDS 2.4, BioEdit, FASTPCR, and statistical tools like ANOVA and SIGMAPLOT. Furthermore, she has managed interlaboratory circuit evaluations and participated in method accreditation processes under European SOP standards. Beyond technical prowess, she brings strong documentation and scientific writing skills, as evidenced by her peer-reviewed publications. Her ability to integrate wet lab research with bioinformatics tools and quality management systems makes her a versatile and reliable figure in research-driven laboratory environments.

Awards and Honors

Throughout her career, Dr. Laura Madeo has been the recipient of several prestigious fellowships and research opportunities. She was awarded multiple research scholarships and contracts from national agencies, including those funded by the Ministry of Health and the European Social Fund. Notably, she won a competitive Erasmus LLP scholarship to conduct experimental research at the renowned John Innes Centre in the UK, where she explored gene expression mechanisms in Arabidopsis thaliana. Additionally, her participation in major EU-funded projects such as SMART HORSE and national veterinary initiatives underscores her valuable contributions to science and public health. Her co-authorship in high-impact journals like Plant Physiology, New Phytologist, and Poultry Science demonstrates peer recognition of her scientific work. She has also been invited to present at numerous international conferences, including the EAVLD and WAVLD, and contributed significantly to the development of national diagnostic protocols, particularly for OGM detection and tuberculosis surveillance. These accolades reflect her commitment to excellence in research and her status as a recognized professional in the fields of veterinary diagnostics and molecular biology.

Conclusion

Dr. Laura Madeo’s career exemplifies the fusion of scientific rigor, diagnostic innovation, and commitment to public and animal health. With a solid academic foundation, enriched by a Ph.D. and a specialization in clinical biochemistry, she has navigated diverse research domains—from plant genetics to zoonotic diseases. Her role at IZSUM underscores her ability to apply molecular diagnostics to real-world health challenges, notably in the fight against bovine tuberculosis and in the evaluation of animal welfare. Her versatile skill set, ranging from protein expression systems to PCR-based pathogen detection, positions her as a valuable asset in both research and diagnostic settings. Recognized through scientific publications and international collaborations, Dr. Madeo continues to contribute meaningfully to the advancement of veterinary and food safety sciences. Her trajectory reflects not only professional competence but also a profound passion for scientific inquiry, collaboration, and societal impact. Through her work, she bridges the gap between laboratory science and field application, making her a key contributor to interdisciplinary research aimed at safeguarding both animal and human health.

Publications Top Notes

  1. Title: How the kinetic behavior of organic chickens affects productive performance and blood and meat oxidative status: a study of six poultry genotypes
    Authors: Simona Mattioli, Alice Cartoni Mancinelli, Laura Menchetti, Alessandro Dal Bosco, Laura Madeo, Monica Guarino Amato, Livia Moscati, Elisa Cotozzolo, Claudia Ciarelli, Elisa Angelucci, et al.
    Year: 2021

  2. Title: Fatal systemic toxoplasmosis in a 3-month-old young tibetan goat (Capra hircus)
    Authors: Laura Madeo et al.
    Year: 2020

  1. Title: Tecniche diagnostiche “non convenzionali” per l’identificazione di dermatofiti in campo umano e veterinario: sequenziamento genico vs MALDI-TOF MS
    Author: Laura Madeo
    Year: 2017

  2. Title: Diagnosis of ovine foot rot in Italian sheep farms
    Author: Laura Madeo
    Year: 2017

  3. Title: Il DNA comet assay nell’identificazione di alimenti irradiati: primo approccio con i vegetali
    Author: Laura Madeo
    Year: 2011

  4. Title: The Arabidopsis thaliana cysteine-rich receptor-like kinase CRK20 modulates host responses to Pseudomonas syringae pv. tomato DC3000 infection
    Authors: Ederli L., Madeo L., Calderini O., Gehring C., Moretti C., Buonaurio R., Paolocci F., Pasqualini S.
    Year: 2011

  5. Title: Deciphering cGMP signatures and cGMP-dependent pathways in plant defence
    Authors: Meier S., Madeo L., Ederli L., Donaldson L., Pasqualini S., Gehring C.
    Year: 2009

  1. Title: NO release by nitric oxide donors in vitro and in planta
    Authors: Ederli L., Reale L., Madeo L., Ferranti F., Gehring C., Fornaciari M., Romano B., Pasqualini S.
    Year: 2009

  2. Title: Ozone and nitric oxide induce cGMP-dependent and -independent transcription of defence genes in tobacco
    Authors: Pasqualini S., Meier S., Gehring C., Madeo L., Fornaciari M., Romano B., Ederli L.
    Year: 2009

  3. Title: Ectopic expression of a basic helix-loop-helix gene transactivates parallel pathways of proanthocyanidin biosynthesis. Structure, expression analysis, and genetic control of leucoanthocyanidin 4-reductase and anthocyanidin reductase genes in Lotus corniculatus
    Authors: Paolocci F., Robbins M.P., Madeo L., Arcioni S., Martens S., Damiani F.
    Year: 2007

Japheth Obiko | Engineering Achievements | Best Researcher Award

Published on by Applied Scientist

Dr. Japheth Obiko | Engineering Achievements | Best Researcher Award

Lecturer at Tshwane University of Technology, South Africa

Dr. Japheth Oirere Obiko is a dynamic and innovative researcher and academic specializing in mechanical and materials engineering. With a robust academic background and diverse research interests, Dr. Obiko is making significant contributions to advanced manufacturing and materials science. He currently holds dual roles as a Lecturer at the Department of Mining, Materials and Petroleum Engineering at Jomo Kenyatta University of Agriculture and Technology (JKUAT) in Kenya, and as a Postdoctoral Fellow at the Tshwane University of Technology in South Africa. His multidisciplinary research integrates cutting-edge methods in metal forming, welding metallurgy, and additive manufacturing, with a strong foundation in numerical simulation and machine learning. Dr. Obiko has authored 37 journal publications and 3 book chapters, contributing extensively to the scientific community. With editorial roles and collaborations with top-tier institutions like the University of the Witwatersrand, he demonstrates a commitment to both academic rigor and industrial applicability. His citation index reflects growing global recognition, and his mentorship of postgraduate students underscores his leadership in academic development. As a registered graduate engineer with the Engineers Board of Kenya, Dr. Obiko bridges theoretical research with practical engineering application, making him a strong contender for the Best Researcher Award.

Professional Profile

Education

Dr. Japheth Oirere Obiko’s educational journey is marked by academic excellence and specialization in engineering sciences. He obtained his Doctor of Philosophy (Ph.D.) in Chemical and Metallurgical Engineering from the prestigious University of the Witwatersrand in Johannesburg, South Africa in 2021. This rigorous doctoral program provided him with advanced competencies in material science, welding metallurgy, and computational modeling. Prior to this, he earned both his Master of Science and Bachelor of Science degrees in Mechanical Engineering from Jomo Kenyatta University of Agriculture and Technology (JKUAT), Kenya in 2015 and 2012, respectively. These formative academic stages laid a strong technical foundation in thermal systems, mechanical design, and manufacturing processes. Dr. Obiko’s educational progression illustrates a steady and deliberate move toward specialization in the emerging frontiers of materials engineering. As a registered graduate engineer with the Engineers Board of Kenya, he has translated this academic knowledge into recognized professional credentials. His pursuit of higher education not only reflects intellectual curiosity but also a determination to contribute meaningful innovations in applied engineering. Through continuous learning and scholarly inquiry, Dr. Obiko exemplifies the modern researcher—deeply informed, technically proficient, and driven by interdisciplinary engagement.

Professional Experience

Dr. Obiko has amassed a wealth of professional experience that combines academia, research, and industry consultancy. He is currently a Lecturer at Jomo Kenyatta University of Agriculture and Technology in Kenya, where he teaches and mentors students in mining, materials, and petroleum engineering. In addition to his teaching role, he serves as a Postdoctoral Fellow at Tshwane University of Technology in South Africa, engaging in advanced research in metal forming and additive manufacturing. Over the years, he has managed and participated in multiple research projects, with five significant studies either completed or ongoing. His experience includes one consultancy project that highlights his ability to translate theoretical research into practical industrial applications. Dr. Obiko’s professional footprint extends beyond teaching; it includes supervising postgraduate students, coordinating research collaborations with institutions like the University of the Witwatersrand, and contributing as a guest editor for a special issue on Smart Manufacturing in the journal Applied Sciences. His involvement in both academic and industrial environments enhances his capacity to bridge knowledge gaps and implement technological solutions. His contributions are further solidified by his authorship of numerous peer-reviewed papers and chapters, confirming his status as a respected academic and thought leader in engineering.

Research Interest

Dr. Japheth Oirere Obiko’s research interests lie at the intersection of materials engineering, computational modeling, and advanced manufacturing. He is deeply invested in understanding and enhancing processes like metal forming and welding metallurgy, both critical for industries ranging from automotive to aerospace. A key area of focus is Wire-Arc Additive Manufacturing (WAAM), where he explores novel techniques to optimize material properties and reduce production defects. His work also extends into numerical simulation, particularly through the Finite Element Method (FEM), enabling the prediction and control of complex material behaviors under various processing conditions. Additionally, Dr. Obiko is venturing into the integration of machine learning—especially Artificial Neural Networks—to improve material design and process automation. This interdisciplinary approach allows for more accurate modeling, real-time monitoring, and data-driven decision-making. His published work reflects a strong commitment to research translation, with applications that benefit both academia and industry. His interests not only align with global priorities in smart manufacturing and sustainable development but also showcase a futuristic vision of engineering that is responsive to emerging technologies. Through collaboration and innovation, Dr. Obiko continues to expand the boundaries of knowledge in applied materials science.

Research Skills

Dr. Obiko is equipped with a diverse and sophisticated array of research skills that enable him to undertake complex engineering investigations and produce impactful results. He is proficient in metal forming analysis and experimental mechanics, essential for optimizing deformation processes and improving material performance. His expertise in welding metallurgy includes the study of microstructural evolution and mechanical properties of welded joints, with practical relevance to industrial fabrication. He is highly skilled in Wire-Arc Additive Manufacturing (WAAM), a cutting-edge technology that he employs to explore new material structures and component efficiencies. Dr. Obiko’s computational skills are particularly advanced; he utilizes Finite Element Method (FEM) tools such as ANSYS and DEFORM for simulations involving thermal, mechanical, and structural analysis. Additionally, he is adept in data-driven modeling using machine learning tools, especially Artificial Neural Networks (ANN), which he incorporates to enhance predictive accuracy and optimization. These computational methods are complemented by his hands-on laboratory expertise in alloy design, microstructure characterization, and mechanical testing. His ability to blend experimental and numerical techniques provides a comprehensive framework for scientific inquiry. Dr. Obiko’s skill set is robust, interdisciplinary, and well-aligned with the demands of modern research in materials and manufacturing.

Awards and Honors

Dr. Japheth Obiko’s achievements in engineering research have earned him recognition within both academic and professional circles. His appointment as a Guest Editor for the Applied Sciences journal’s Special Issue on “Advanced Metal Forming and Smart Manufacturing Processes” is a testament to his expertise and leadership in the field. This role not only highlights his editorial acumen but also his recognition as a subject-matter expert globally. His doctoral and postdoctoral affiliations with leading institutions such as the University of the Witwatersrand and Tshwane University of Technology further reflect his academic merit. While he has not yet been formally awarded national or international medals, the depth of his contributions—spanning over 37 peer-reviewed journal publications and three scholarly book chapters—showcases a sustained and high-impact research trajectory. His citation index in Scopus and multiple collaborative efforts with global institutions provide further evidence of his growing influence. As a registered member of the Engineers Board of Kenya and an active contributor to industrial consultancy projects, Dr. Obiko has demonstrated both academic excellence and practical engagement. His dedication to research, innovation, and mentorship positions him as a strong candidate for the Best Researcher Award.

Conclusion

In conclusion, Dr. Japheth Oirere Obiko exemplifies the qualities of a forward-thinking researcher, educator, and professional engineer. His academic journey from Jomo Kenyatta University of Agriculture and Technology to internationally recognized institutions such as the University of the Witwatersrand has laid a strong foundation for his career in advanced manufacturing and materials science. His prolific research output, spanning 37 journal publications and several collaborative projects, reflects both depth and breadth in subject matter expertise. Moreover, his roles as a lecturer, postdoctoral researcher, and guest editor demonstrate a commitment to academic excellence, interdisciplinary collaboration, and mentorship. Dr. Obiko’s integration of simulation techniques, welding technologies, and machine learning into engineering research addresses real-world challenges and promotes innovation. His contributions are timely and relevant, aligning with global goals for sustainable, smart manufacturing. Although still early in his professional trajectory, his influence is rapidly growing, as evidenced by his scholarly citations and editorial invitations. By maintaining strong industry ties and fostering future engineers, he continues to impact both theory and practice. Dr. Obiko stands out as a highly deserving nominee for the Best Researcher Award, representing the next generation of African scholars leading transformative change in science and technology.

Publications Top Notes

1. Title: Advancing the hydrogen production economy: A comprehensive review of technologies, sustainability, and future prospects
Authors: SO Jeje, T Marazani, JO Obiko, MB Shongwe
Year: 2024
Citations: 95

2. Title: Finite element simulation of X20CrMoV121 steel billet forging process using the Deform 3D software
Authors: JO Obiko, FM Mwema, MO Bodunrin
Year: 2019
Citations: 50

3. Title: An overview of conventional and non-conventional techniques for machining of titanium alloys
Authors: SR Oke, GS Ogunwande, M Onifade, E Aikulola, ED Adewale, …
Year: 2020
Citations: 46

4. Title: Forging optimisation process using numerical simulation and Taguchi method
Authors: JO Obiko, FM Mwema, H Shangwira
Year: 2020
Citations: 23

5. Title: Validation and optimization of cutting parameters for Ti-6Al-4V turning operation using DEFORM 3D simulations and Taguchi method
Authors: JO Obiko, FM Mwema, MO Bodunrin
Year: 2021
Citations: 22

6. Title: A multi-response optimization of the multi-directional forging process for aluminium 7075 alloy using grey-based Taguchi method
Authors: C Obara, FM Mwema, JN Keraita, H Shagwira, JO Obiko
Year: 2021
Citations: 19

7. Title: Friction correction of flow stress-strain curve in the upsetting process
Author: J Obiko
Year: 2021
Citations: 16

8. Title: Effect of punch force on the upsetting deformation process using three-dimensional finite element analysis
Authors: FM Mwema, JO Obiko, ET Akinlabi, SA Akinlabi, OS Fatoba
Year: 2019
Citations: 14

9. Title: On the uniaxial compression testing of metallic alloys at high strain rates: an assessment of DEFORM-3D simulation
Authors: M Bodunrin, J Obiko, D Klenam
Year: 2023
Citations: 13

10. Title: Strain rate-strain/stress relationship during isothermal forging: a deform-3D FEM
Authors: J Obiko, F Mwema, ET Akinlabi
Year: 2020
Citations: 13

Woung-Ru Tang | Pediatric Cancer | Best Researcher Award

Published on by Applied Scientist

Prof. Woung-Ru Tang | Pediatric Cancer | Best Researcher Award

Professor and Dean at Chang Gung University, Taiwan

Dr. Woung-Ru Tang, Ph.D., is an esteemed academic and researcher specializing in hospice care, cancer truth-telling, and cancer-related fatigue. With decades of experience in clinical nursing education and palliative healthcare, she currently serves as a professor at Chang Gung University. Dr. Tang has made significant contributions to nursing research, particularly in the development of communication training models for cancer truth-telling and palliative care. Her interdisciplinary approach integrates ethical research practices, shared decision-making, and patient-centered care, which are central to her teaching and research philosophies. She has collaborated with institutions across Taiwan, Australia, and the United States, and her work has been widely published in high-impact scientific journals. Dr. Tang’s academic career is distinguished not only by her research productivity but also by her ability to translate findings into effective clinical and educational practices. Her pioneering studies have led to the advancement of culturally sensitive palliative education models and the implementation of AI in healthcare curricula. As a mentor and educator, she has trained numerous graduate students and healthcare professionals in Taiwan and internationally. Her passion for evidence-based practice and holistic care continues to inspire advancements in nursing science and patient communication.

Professional Profile

Education

Dr. Woung-Ru Tang’s academic foundation reflects a lifelong dedication to nursing and health sciences. She began her journey with a Bachelor of Science degree from the National Taipei College of Nursing in 1988, where she developed a foundational understanding of clinical nursing and patient care. Building on this, she pursued her Master of Science at Fort Hays State University in 1993, where she was awarded the Leora Stroup Master’s Award for her outstanding academic performance, indicating early excellence in research and leadership. Dr. Tang culminated her formal education with a Ph.D. from the University of Kansas in 2001. Her doctoral work was recognized with the prestigious Melba Carter Award for Best Dissertation, reflecting the scholarly depth and impact of her research. Her educational progression from Taiwan to the United States highlights a blend of Eastern and Western academic experiences, enriching her perspective on global nursing practices. This diverse academic background has been instrumental in shaping her pioneering work in cancer truth-telling and palliative care communication. Her interdisciplinary education has allowed her to bridge gaps between cultural sensitivity, clinical research, and advanced nursing practice, preparing her to mentor future generations of healthcare professionals and researchers.

Professional Experience

Dr. Woung-Ru Tang’s professional trajectory exemplifies a seamless integration of clinical practice, academic leadership, and research innovation. Currently serving as a professor at Chang Gung University, she is deeply involved in curriculum development, graduate education, and interdisciplinary research. Dr. Tang’s teaching spans a broad array of subjects across Nursing MSN and Ph.D. programs, including Nursing Theory, Medical-Surgical Nursing, Research Ethics, and Hospice Care. She also contributes to medical education in areas such as shared decision-making and communication in cancer care. Her leadership extends beyond teaching; she has led numerous grant-funded projects in Taiwan and internationally, focusing on truth-telling communication models, AI integration in nursing education, and virtual reality tools for skill training. In her administrative and mentorship roles, Dr. Tang has trained countless nurse practitioners and researchers, often emphasizing culturally competent care and evidence-based approaches. She has collaborated with health ministries and academic institutions to improve hospice and palliative services, both in policy and practice. Through her academic and clinical leadership, Dr. Tang has positioned herself as a key figure in modern nursing education and palliative research, making lasting contributions to healthcare systems and professional development.

Research Interest

Dr. Woung-Ru Tang’s research interests lie at the intersection of communication, ethics, and palliative care within the nursing discipline. A significant portion of her work has focused on cancer truth-telling—a culturally sensitive and ethically complex issue in clinical practice. She investigates how healthcare professionals, patients, and families engage in conversations about terminal diagnoses, and she develops training interventions to improve this communication. In parallel, Dr. Tang also addresses cancer-related fatigue, designing non-pharmacological interventions such as acupressure to enhance patients’ quality of life. Hospice care remains a core area of her inquiry, with studies targeting team-based learning, curriculum reforms, and early integration of palliative care for non-cancer illnesses. More recently, her research has expanded into educational innovations, including virtual reality modules and AI-based classification models to improve clinical communication training. Dr. Tang’s scholarship bridges academic research with applied solutions, often funded by national and international grants. Her commitment to ethical research, patient advocacy, and interdisciplinary collaboration ensures her findings are both scientifically rigorous and clinically applicable. With over 50 peer-reviewed publications, Dr. Tang continues to shape nursing knowledge and elevate care standards through her thoughtful exploration of complex healthcare dynamics.

Research Skills

Dr. Woung-Ru Tang possesses a robust set of research skills encompassing qualitative and quantitative methodologies, curriculum development, and intervention design. She is particularly proficient in conducting longitudinal and quasi-experimental studies that assess clinical outcomes and communication competencies. Her research design expertise is evident in projects such as randomized controlled trials on acupressure for fatigue and intervention assessments in pediatric cancer truth-telling. Dr. Tang is skilled in grounded theory, phenomenological analysis, and content analysis, which she has applied to understand experiences of patients, families, and healthcare professionals. She excels in mixed-method research, synthesizing numerical data with contextual insights to inform practice and policy. Additionally, her competency in developing and validating educational models, such as VR modules and AI-based classification systems, highlights her interdisciplinary strengths. Dr. Tang is also adept in grant writing, securing extensive funding from entities like the Ministry of Science and Technology and National Cancer Institute. Her ability to translate research findings into curricular reforms and policy recommendations speaks to her practical acumen. She regularly collaborates with cross-national teams and mentors junior researchers in research ethics and publication strategies, further extending her influence in the academic and clinical community.

Awards and Honors

Throughout her distinguished career, Dr. Woung-Ru Tang has been recognized with numerous awards and honors that underscore her excellence in nursing education, research, and clinical practice. Notably, she received the Melba Carter Award for Best Dissertation from the University of Kansas in 2001, reflecting the significance of her doctoral research. In the same year, she earned the 2nd Place Award at the Student Research Forum of the University of Kansas Medical Center. Earlier in her academic journey, she was awarded the Leora Stroup Master’s Award for being the top master’s student at Fort Hays State University in 1993. Dr. Tang was also honored twice as a Distinguished Alumni by the Chung-Jen Junior College of Nursing, Health Sciences and Management in Taiwan, in 2003 and again in 2011, which highlights her lasting impact on nursing education in her home country. These accolades are complemented by a consistent record of successful grant acquisition and impactful publications. Her recognition reflects not only individual achievement but also a sustained contribution to healthcare education, particularly in advancing cancer care, hospice communication, and ethical research methodologies.

Conclusion

Dr. Woung-Ru Tang stands as a paragon of excellence in nursing education, palliative care, and healthcare communication. Her academic journey, grounded in both Taiwanese and Western institutions, has empowered her with a unique cultural and professional lens through which she approaches clinical research and education. Through her work in cancer truth-telling, fatigue management, and hospice curriculum reform, she has advanced the scope of nursing practice and enriched patient-centered care strategies. Her impressive portfolio of publications, successful research grants, and teaching engagements illustrates a sustained commitment to improving the quality of healthcare delivery. As a mentor, educator, and researcher, Dr. Tang continues to shape the next generation of nursing professionals with a focus on ethical practice, interdisciplinary collaboration, and innovation. Her integration of AI and virtual reality into nursing education underscores her forward-thinking vision. Ultimately, Dr. Tang’s career reflects not only scholarly excellence but also deep compassion for patient dignity and empowerment. Her enduring impact on the fields of oncology, nursing communication, and hospice care makes her a respected leader and a source of inspiration in global healthcare education and research.

Publications Top Notes

1. Title: Communication Skills Training to Improve Confidence and Skills in Pediatric Cancer Truth-Telling of Registered Nurses: A Quasi-Experimental Study
Authors: Chen S.Y., Chen S.H., Zhou M.X., Hsiao C.C., Lin C.C., Fang J.T., Maiko Fujimori, Tang W.R.*
Year: 2025

2. Title: Comparing the Effectiveness of Online and Face-to-Face Teaching for Medical Students in Shared Decision-Making Communication Skills Training
Authors: Lin Y.X., Thi Ngoc Pham, Weng L.C., Fang C.K., Hsieh M.J., Chang Y.C., Fujimori M., Tang W.R.*
Year: 2025
Citations: 1

3. Title: Predicaments and Coping Strategies in Implementing Cancer Truth-Telling: A Qualitative Content Analysis
Authors: Li S.Z., Chen S.Y., Chang Y.L., Fang C.K., Fujimori M., Tang W.R.*
Year: 2024

4. Title: Experiences and Preferences of Truth-Telling in Families of Children with Cancer: A Phenomenological Study
Authors: Chiou Y.G., Chen S.Y., Wu L.M., Shyu Y.I.L., Chiang Y.C., Hsiao C.C., … , Tang W.R.*
Year: 2024
Citations: 1

5. Title: Changes in Fatigue Among Cancer Patients Before, During, and After Radiation Therapy: A Meta-Analysis
Authors: Li C.L., Chen P.Y., Yang T.Y., Chang J.T., Tang W.R., Chen M.L.
Year: 2023