Liu Xiaoda | Material Genetic Engineering | Best Researcher Award

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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

Abdul Manan | Material Science | Best Researcher Award

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Dr. Abdul Manan | Material Science | Best Researcher Award

Associate Professor at University of Science & Technology Bannu, Pakistan

Dr. Abdul Manan is an accomplished Associate Professor in the Department of Physics at the University of Science & Technology (UST), Bannu, Pakistan. With a Ph.D. in Physics from the University of Peshawar and significant research exposure at The University of Sheffield (UK), Wuhan University of Technology (China), and Pennsylvania State University (USA), Dr. Manan has emerged as a recognized expert in materials science and applied physics. His research contributions are extensive, with over 40 high-impact international publications and a strong record of academic excellence and innovation. Dr. Manan’s work centers on advanced ceramics, dielectric materials, and energy storage systems, where he consistently explores the nexus between materials design and sustainable energy solutions. His active participation in national and international scientific committees, editorial boards, and technical programs reflects his commitment to research leadership and academic mentorship. Dr. Manan’s numerous awards from the Higher Education Commission of Pakistan and international research societies underscore his valuable contributions to science and technology, making him a leading figure in his field. As an educator, researcher, and scientific ambassador, he continues to elevate Pakistan’s profile in the global academic community through excellence in research, teaching, and service.

Professional Profile

Education

Dr. Abdul Manan’s academic journey reflects a consistent pursuit of excellence. He earned his Ph.D. in Physics from the University of Peshawar (2006–2011), where he conducted cutting-edge research at the Department of Materials Science and Engineering, The University of Sheffield, UK. Before his doctorate, he completed his M.Sc. in Physics (2002–2004) and B.Sc. in Physics and Mathematics (2000–2002) from the University of Peshawar and Gomal University respectively, securing first divisions throughout. He laid the foundation of his academic career with high achievements in his pre-engineering (HSSC) and science (SSC) studies from BISE Bannu. To further enrich his research acumen, he undertook two prestigious postdoctoral fellowships—first at the School of Materials Science and Engineering, Wuhan University of Technology (2017), and later at the Materials Research Institute, Penn State University, USA (2023). These international experiences greatly broadened his scientific perspective, particularly in dielectric materials and ceramics for energy applications. This robust academic background, enriched with international exposure and multidisciplinary training, positions Dr. Manan as a leader in physics and materials science research in Pakistan and beyond.

Professional Experience

Dr. Abdul Manan’s career spans diverse teaching and research roles that reflect his progression from a young researcher to a seasoned academic leader. His professional journey began as a Research Assistant at the University of Peshawar, followed by a lecturer position at Islamia College Peshawar. He further contributed as a visiting research scholar at The University of Sheffield, UK, and later taught at Khyber Medical University. In 2011, he was appointed Assistant Professor at UST Bannu and held the same post at Islamia College Peshawar before rejoining UST Bannu in 2015. Since October 2021, he serves as Associate Professor at UST Bannu, contributing to curriculum development, mentoring, and high-impact research. He has also held significant administrative roles including Chief Proctor, Director ORIC, Chairman of the Department of Physics, and Warden for Boys’ Hostels. Through these roles, Dr. Manan has demonstrated leadership in institutional development, academia-industry linkages, and student engagement. His broad professional experience has nurtured a multidisciplinary approach, reinforcing his capabilities in teaching, research, and university governance.

Research Interests

Dr. Abdul Manan’s research interests lie primarily in the field of materials science, with a strong focus on advanced ceramics, dielectric materials, piezoelectric systems, and energy storage devices. He is particularly interested in exploring the structural, electrical, and thermal behaviors of lead-free ceramics, a crucial domain in sustainable energy technology. His work involves designing new ceramic compositions, such as BaTiO3- and NaNbO3-based systems, to improve electrocaloric effects, dielectric constants, and storage efficiencies. He also has a keen interest in nanomaterials for sensing applications, microwave dielectric ceramics, and photoluminescent materials for LEDs. His recent studies on grain boundary effects, domain engineering, and microstructural tuning demonstrate his depth in the experimental and computational study of materials. Moreover, Dr. Manan actively contributes to collaborative research addressing global energy and environmental challenges. His ongoing projects aim to innovate smart materials for pulsed power capacitors and green electronics. This convergence of fundamental science and applied research underscores his commitment to scientific advancement with practical societal impact.

Research Skills

Dr. Abdul Manan possesses a comprehensive array of research skills in experimental physics and materials science. His technical proficiency includes ceramic processing techniques such as solid-state reaction, hydrothermal synthesis, and sol-gel methods. He is adept at characterizing materials using tools like XRD, SEM, impedance spectroscopy, and dielectric analyzers to investigate phase composition, microstructure, and electrical properties. Dr. Manan also demonstrates strong expertise in thermal analysis and energy storage characterization, essential for capacitor-grade material development. Additionally, his exposure to computational modeling and DFT simulations enables him to complement experimental findings with theoretical insights. He has a proven track record of conducting interdisciplinary research across institutions in China, the UK, and the USA. His editorial roles across several international journals further exhibit his deep understanding of peer-review processes, manuscript preparation, and scientific publishing. Dr. Manan’s ability to lead collaborative projects, mentor students, and publish impactful research articles highlights his exceptional capabilities in academic research and innovation.

Awards and Honors

Dr. Abdul Manan has received numerous awards that reflect his dedication to research excellence. He was awarded the prestigious Best Researcher Award in Materials Science by ScienceFather in 2024. His postdoctoral studies were supported by competitive grants from the Higher Education Commission (HEC) of Pakistan, including IRSIP and Interim Placement of Fresh PhDs. Dr. Manan received multiple travel and research grants from HEC for participating in international conferences such as the IEEE ISAF-ISIF-PFM 2023 (USA), Electroceramics XIV (Romania), and the Pacific Rim Conference on Ceramic and Glass Technology (Canada, 2025). Additionally, The Pennsylvania State University awarded him publication and conference support funding in 2023. These honors signify recognition from both national and global research communities. He is also an active member of editorial boards and scientific committees, including for journals like the Journal of Electronic Research and Application, Modern Materials Science and Technology, and the Indonesian Journal of Materials Research. These distinctions underline his growing influence as a global academic contributor.

Conclusion

Dr. Abdul Manan stands as a paragon of academic excellence, research innovation, and institutional leadership. His contributions span the breadth of experimental physics and materials science, with a clear focus on developing sustainable energy materials. He has successfully bridged international collaborations, integrated advanced characterization techniques into his work, and mentored future scientists across multiple institutions. Beyond his research, his administrative roles as Director ORIC, Chief Proctor, and Chairman of the Physics Department reflect his dedication to academic governance and policy development. His prolific publication record, ongoing international collaborations, and editorial responsibilities position him as a highly respected figure in the global scientific community. Looking ahead, Dr. Manan is poised to further elevate his impact through advanced interdisciplinary research and policy-driven academic leadership. With a rare blend of scientific acumen, teaching experience, and institutional service, he exemplifies the modern scientist-educator and continues to make significant contributions toward technological advancement and educational excellence in Pakistan and beyond.

Publications Top Notes

  • Title: Achieving high electrostrain performance in BNT‑based lead‑free piezoelectric ceramics modified by Sr(Sn₀.₅Ta₀.₄)O₃
    Authors: Abdul Manan, et al.
    Year: 2025

  • Title: Enhanced electrocaloric effect in BaTiO₃‑based ceramics over a wide working temperature range by domain engineering
    Authors: Abdul Manan, et al.
    Year: 2025

  • Title: Dielectric, impedance, and energy storage properties of Bi(Mg₀.₅Sn₀.₅)O₃‑modified Bi₀.₅Na₀.₅TiO₃ based ceramics
    Authors: Abdul Manan, et al.
    Year: 2025
    Citations: 2

  • Title: Achievement of high energy density and efficiency in Bi(Mg₀.₅Hf₀.₅)O₃ modified Ba₀.₅₅Sr₀.₄₅TiO₃ ceramics
    Authors: Abdul Manan, et al.
    Year: 2025

  • Title: Achieving improved dielectric energy storage properties in Na₀.₄₅₀₅Bi₀.₃₈₂₅Sr₀.₁₃₆Nb₀.₀₈₅Er₀.₀₁₅TiO₃ ferroelectric ceramics via La modification and processing optimization
    Authors: Abdul Manan, et al.
    Year: 2025

  • Title: Enhanced dielectric energy storage properties of PLZST relaxor‑antiferroelectric ceramics achieved via phase transition modulation and processing optimization
    Authors: Abdul Manan, et al.
    Year: 2025

  • Title: A DFT study to explore structural, electronic, optical and mechanical properties of lead‑free Na₂MoXO₆ (X = Si, Ge, Sn) double perovskites for photovoltaic and optoelectronic applications
    Authors: Abdul Manan, et al.
    Year: 2024
    Citations: 6

  • Title: Structural, dielectric, electrical, and energy storage properties of Mn‑doped Ba₀.₅₅Sr₀.₄₅TiO₃ ceramics
    Authors: Abdul Manan, et al.Year: 2024
    Citations: 7