Shaikh Adil | Dairy Science | Research Excellence Award

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Dr. Shaikh Adil | Dairy Science | Research Excellence Award

Assistant Professor at Parul University, Vadodara, India

Dr. Shaikh Adil is an accomplished academician and researcher currently serving as Assistant Professor at Parul University, Vadodara, Gujarat. With over seven years of teaching experience, his work spans various prestigious institutions across India, including the College of Dairy Technology in Udgir and Warud. He also brings significant industrial expertise through his roles in organizations like Igloo Dairy Services and Vasudhara Dairy. His academic background is rooted in Dairy Technology, holding a Ph.D. from SMC College of Dairy Science, Anand, and prior degrees from Maharashtra Animal and Fishery Sciences University. Dr. Adil is a prolific researcher in the domain of frozen desserts, fruit by-products, and traditional Indian dairy products, with over 35 research publications in SCOPUS, WOS, and UGC-listed journals. His scholarly pursuits are further demonstrated by his authorship of books and contributions to national and international conferences. Known for his innovative approaches in dairy product development, Dr. Adil has significantly contributed to value addition in dairy using fruit waste, aligning with sustainability goals. His work continues to bridge academia and industry through research, innovation, and education in food science and dairy technology.

Professional Profile

Education

Dr. Shaikh Adil holds a comprehensive academic portfolio in Dairy Technology. He earned his Ph.D. from SMC College of Dairy Science, Anand, where he explored the “Utilization of Orange Peel Products for Value Addition to Frozen Yoghurt,” demonstrating a strong commitment to sustainable and health-focused dairy innovations. Prior to this, he obtained his M.Tech. in Dairy Technology from Maharashtra Animal and Fishery Sciences University, Nagpur, with a thesis on the development of vegetable-based dried Kheer mix, reflecting his interest in functional traditional foods. He also completed a B.Tech. in Dairy Technology from the same university, laying the foundation for his expertise in dairy sciences. Additionally, Dr. Adil holds a Post Graduate Diploma in Food Safety from IGMPI, New Delhi, enriching his academic credentials with essential knowledge in regulatory and safety aspects of food production. His educational background blends theoretical knowledge with practical application, enabling him to address contemporary challenges in the dairy sector, from innovation in product development to safety and quality control. This strong academic grounding has been instrumental in shaping his teaching, research, and industry collaboration initiatives.

Professional Experience

Dr. Shaikh Adil has accumulated over seven years of academic experience and considerable industrial exposure, making him a well-rounded professional in the field of Dairy Technology. Since June 2022, he has served as an Assistant Professor at Parul Institute of Technology, Parul University, Vadodara, where he contributes to both teaching and research. Previously, he worked as an Assistant Professor (Ad-Hoc) at the College of Dairy Technology in Udgir, and as a guest lecturer at the same institution and at the College of Dairy Technology in Warud. His teaching roles have involved core subjects in dairy technology, reflecting his commitment to education and curriculum development. In addition to his academic career, Dr. Adil has practical experience in the dairy industry. He served as a Production Officer at Igloo Dairy Services Pvt. Ltd. and as a Management Trainee at Vasudhara Dairy. This industry-academia blend enriches his pedagogical methods and research approaches, ensuring they are aligned with real-world applications. His career trajectory showcases a continuous pursuit of excellence in dairy education, technology dissemination, and innovative research in traditional and modern dairy practices.

Research Interest

Dr. Shaikh Adil’s research interests lie at the intersection of traditional wisdom and modern food science, particularly within the domains of frozen desserts, fruit by-products, and traditional Indian dairy products. He is passionate about developing sustainable and functional dairy innovations by leveraging underutilized resources such as fruit waste. His doctoral research exemplifies this vision, where he focused on the incorporation of orange peel products into frozen yoghurt to enhance both its nutritional and functional properties. Dr. Adil continues to explore avenues for value addition in dairy products by using fruit peels, vegetable powders, and indigenous ingredients. His work aims to elevate the nutritional profile and market appeal of traditional Indian dairy delicacies, like Kheer and Burfi, while ensuring they meet contemporary health and safety standards. This blend of research not only contributes to waste minimization and sustainability but also provides novel food products that cater to modern dietary preferences. Through his ongoing projects and publications, Dr. Adil is fostering innovation in dairy processing, aligning his efforts with global trends in food science and functional nutrition.

Research Skills

Dr. Shaikh Adil possesses a robust set of research skills rooted in dairy science and food technology. His expertise includes formulation and product development, statistical optimization (such as response surface methodology), sensory evaluation, and compositional analysis. He is well-versed in advanced laboratory techniques relevant to dairy processing, microbiological safety, and nutritional profiling. His work on frozen yoghurt, pizza cheese, Kheer mix, and probiotic dairy foods reflects strong proficiency in integrating functional ingredients into conventional dairy matrices. Dr. Adil also demonstrates adeptness in using food industry software and instrumentation for quality control and shelf-life studies. He has authored and co-authored over 30 peer-reviewed research papers in reputed SCOPUS, Web of Science, and UGC-listed journals, showcasing his ability to conduct high-impact scientific research. Furthermore, his contributions to national and international conferences underline his capabilities in scientific communication and knowledge dissemination. Dr. Adil’s interdisciplinary approach bridges gaps between traditional dairy practices and modern innovations, underpinned by a strong methodological framework and a keen eye for application-oriented research.

Awards and Honors

Dr. Shaikh Adil has earned wide recognition for his contributions to dairy technology and food science. He has co-authored over 30 impactful papers in high-ranking journals, including SCOPUS and Web of Science indexed publications, showcasing the academic community’s acknowledgment of his research. His works have been frequently cited in scholarly literature, underlining the influence and relevance of his studies in frozen desserts, functional dairy innovations, and the valorization of food by-products. Dr. Adil’s involvement in book chapters and textbooks, such as his contributions to CRC Press publications and the co-authored question bank on dairy engineering, further establishes his authority in the domain. Additionally, he has been invited to present his research findings at multiple national and international conferences and has published widely in symposia proceedings. His contributions to popular science literature, such as articles in the Indian Food Industry Magazine, also speak to his efforts in outreach and science communication. These accolades and scholarly engagements reflect Dr. Adil’s commitment to excellence and continuous impact in dairy research and education.

Conclusion

Dr. Shaikh Adil emerges as a visionary academic and research leader in the field of dairy technology, seamlessly integrating traditional practices with modern scientific innovation. With a strong academic foundation, rich teaching experience, and hands-on industry exposure, he brings a multidimensional perspective to food and dairy science. His focus on sustainable product development through the use of fruit and vegetable by-products not only addresses environmental concerns but also caters to evolving consumer demands for health and nutrition. Through extensive research publications, conference presentations, and academic authorship, he continues to contribute to the scientific community while fostering the next generation of food technologists. His role at Parul University enables him to mentor students and drive applied research that has real-world implications. As the food industry grapples with challenges around sustainability, functionality, and food safety, professionals like Dr. Adil are pivotal in shaping innovative and eco-conscious solutions. His career is a testament to academic rigor, research excellence, and an unwavering commitment to societal and industrial advancement through science and education.

Publications Top Notes

  1. Title: Feasibility of utilising orange (Citrus sinensis) peel powder as a fat substitute in frozen yoghurt
    Authors: Shaikh Adil, Atanu Hrishikesh Jana, Bhavbhuti M. Mehta, Ankit Bihola, Chandgude Prasad, Bhargav Rajani
    Year: 2025

  1. Title: Value addition to frozen yoghurt through the use of orange peel solids as flavour adjunct
    Authors: Shaikh Adil, Atanu H. Jana, Bhavbhuti M. Mehta, V. B. Darji
    Year: 2023

Priyadharshini Marckasagayam | Environmental Science | Young Scientist Award

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Dr. Priyadharshini Marckasagayam | Environmental Science | Young Scientist Award

Researcher at The New college (Autonomous),Chennai, India

Dr. M. Priyadharshini, M.Sc., Ph.D., is an emerging expert in the field of environmental radioactivity and aquatic toxicology, with a strong academic foundation and a prolific research output. Currently serving as a Ph.D. research scholar at the Unit of Research in Radiation Biology & Environmental Radioactivity (URRBER), The New College (Autonomous), University of Madras, she has demonstrated exceptional scholarly commitment. With 23 international publications and a cumulative impact factor exceeding 76, her research has garnered media attention, including features in the Times of India. Her work revolves around radiological and toxicological risk assessments in marine ecosystems and food chains, with a specific focus on human health impacts. Recognized for her academic excellence, she has received high commendation for her doctoral work and holds impressive rankings in institutional and scientific indexes. Dr. Priyadharshini’s contributions span across interdisciplinary themes such as radionuclide exposure, heavy metals in biota, and ecological health risk evaluations. Her active participation in international symposia and collaborations with leading scientists underscore her dedication to scientific advancement and global outreach. Equipped with technical proficiencies and a keen understanding of radiological instrumentation, she is poised to continue advancing research in environmental safety, public health, and radiation biology.

Professional Profile

Education

Dr. Priyadharshini’s academic journey reflects her deep-rooted interest in zoological sciences and environmental safety. She pursued her Bachelor of Science in Advanced Zoology and Biotechnology from Ethiraj College for Women, University of Madras, graduating in 2018 with 74.5%. Building upon her foundational knowledge, she earned her Master of Science in Zoology from the same college in 2020 with an impressive 84.5%. Her academic excellence and research acumen led her to enroll in a Ph.D. program in Zoology, specializing in Environmental Radioactivity, at The New College (Autonomous), University of Madras. Expected to complete in April 2025, her doctoral research has already earned high commendation. Throughout her academic career, she actively participated in seminars, workshops, and training programs that have significantly expanded her technical knowledge in areas such as radiation measurement, aquaculture, molecular biology, and environmental risk assessment. Her rigorous academic training, combined with a hands-on approach through internships and projects, has laid a robust foundation for her current and future scientific endeavors. Her education has not only equipped her with subject expertise but also fostered a deep appreciation for interdisciplinary research and sustainable environmental practices.

Professional Experience

Dr. M. Priyadharshini has cultivated a dynamic professional profile rooted in advanced environmental and radiological research. Since April 2021, she has been affiliated with the Unit of Research in Radiation Biology and Environmental Radioactivity (URRBER) at The New College, Chennai, under the University of Madras. Her responsibilities include conducting complex experiments on radionuclide presence in biotic and abiotic ecosystems, managing lab protocols, and training junior researchers. Her work involves multidisciplinary collaboration with international institutions and scientists, especially in radiological safety and marine pollution. She has contributed to several baseline studies assessing the ecological and human health risks of radioactivity and heavy metals in food items and aquatic organisms. Dr. Priyadharshini has presented her findings at numerous national and international conferences, such as ICMMRM and ARCEBS, highlighting her leadership in scientific communication. Beyond her primary research, she has undertaken internships and workshops in industrial microbiology, molecular markers, and radiological decommissioning. Her media presence and institutional rankings further testify to the real-world relevance and impact of her work. Through hands-on field sampling, lab analysis, and community health risk evaluation, she continues to integrate scientific rigor with public health advocacy.

Research Interest

Dr. M. Priyadharshini’s research interests lie at the confluence of environmental radioactivity, toxicology, and ecological risk assessment. Her primary focus is on understanding the effects of naturally occurring radioactive materials (NORMs), heavy metals, and other environmental pollutants on aquatic organisms and their subsequent impact on human health through the food chain. She is particularly intrigued by the accumulation of radionuclides such as 210Po and 210Pb in marine species and sediments, and the implications of their bioaccumulation. Her studies contribute to the establishment of baseline data crucial for policymaking and environmental protection. In addition, she investigates the radiological risks associated with everyday consumables such as dried fish, tea, fruits, and milk products. This integrated approach toward public health risk assessment is complemented by her interest in microbial ecology, bioremediation, and molecular toxicology. Her collaborative work spans across national and international projects, enhancing the global relevance of her research. Dr. Priyadharshini’s vision is to bridge the gap between academic research and public health policy by offering scientifically sound, data-driven insights into environmental and food safety. Her ongoing projects reflect a sustained commitment to safeguarding ecosystems while addressing the socio-environmental aspects of radiation exposure.

Research Skills

Dr. M. Priyadharshini possesses a robust portfolio of research skills that reflect her multifaceted expertise in radiation biology, environmental toxicology, and aquatic zoology. She is proficient in radiation counting and measurement techniques using alpha and beta counters and gamma-ray spectrometers, particularly for detecting 210Po and 210Pb in various matrices. Her molecular biology toolkit includes DNA isolation, PCR, gel electrophoresis (PAGE and SDS-PAGE), and cytogenetic assays. She has significant experience in aquaculture methods such as hypophysation and hypergonad stimulation in fish. In microbiology, she excels in sterilization techniques, microbial culture methods, and biochemical assays for microbial profiling. Her analytical competencies extend to using UV spectrophotometry and colorimetry for biochemical and environmental assays. Additionally, Dr. Priyadharshini is skilled in proposal writing, manuscript preparation, project reporting, and environmental sampling. Her ability to manage interdisciplinary studies and apply statistical tools for data interpretation enhances the quality and depth of her research. Through extensive fieldwork and laboratory investigations, she has built expertise in risk assessment models, especially related to radiation exposure and toxic elements in food and water sources. Her methodological versatility and commitment to precision are hallmarks of her scientific approach.

Awards and Honors

Dr. M. Priyadharshini has received several accolades that underscore her academic excellence and research impact. Notably, her groundbreaking research on human health risks from dried fish consumption was featured in the Times of India (October 2023), spotlighting the societal relevance of her scientific endeavors. She earned the prestigious “Highly Commended” status for her doctoral research in Environmental Radioactivity from the University of Madras. In 2025, she was ranked 26th institutionally by the AD Scientific Index, a recognition of her growing influence in the global research community. With 23 international publications in high-impact journals totaling over 76 in cumulative impact factor, she has built a distinguished scholarly profile. She has actively participated and presented in international conferences including ICMMRM and ARCEBS, where her work received commendations. Her engagement in numerous workshops, training programs, and symposia showcases her commitment to continuous learning and scientific outreach. The breadth of her accolades extends from institutional honors to international platforms, positioning her as a leading young scholar in environmental sciences. These recognitions are a testament to her scientific rigor, research relevance, and dedication to advancing knowledge in public health, radiation safety, and ecological sustainability.

Conclusion

Dr. M. Priyadharshini emerges as a dynamic and accomplished researcher whose academic and professional journey exemplifies dedication, interdisciplinary thinking, and societal impact. With a solid educational background and cutting-edge research on environmental radioactivity and public health risks, she has significantly contributed to the understanding of radionuclide contamination in marine and terrestrial ecosystems. Her methodological versatility, scientific publications, and international presentations underscore a researcher committed to excellence and innovation. The practical relevance of her work, highlighted by media coverage and institutional rankings, reflects her capability to bridge science and society. As she nears the completion of her Ph.D., Dr. Priyadharshini is well-positioned to influence environmental policy, contribute to radiation safety standards, and collaborate globally on emerging ecological challenges. Her aspirations align with a vision for sustainable environmental stewardship, public health advocacy, and scientific integrity. Whether through research, teaching, or policy engagement, Dr. Priyadharshini exemplifies the qualities of a modern scientist — knowledgeable, adaptive, and purpose-driven. She stands not only as a subject expert in radiation biology and environmental sciences but also as a promising leader shaping the future of ecological risk assessment and human health protection.

Publications Top Notes

1. Title: Impact of Hygrophila auriculata supplementary diets on the growth, survival, biochemical and haematological parameters in fingerlings of freshwater fish Cirrhinus mrigala
Authors: J. Kumar, M. Priyadharshini, M. Madhavi, S.S. Begum, A.J. Ali, M.S. Musthafa, et al.
Year: 2022
Citations: 38

2. Title: Biological effects of ionizing radiation on Aquatic biota – A critical review
Authors: C.F. Kumara Perumal Pradhoshini, Marckasagayam Priyadharshini, Bharathi Santhanabharathi, et al.
Year: 2023
Citations: 21

3. Title: Source, fate and transfer of primordial radionuclides as potential contaminants in environmental matrices of high and low background radiation areas – a critical review
Authors: B. Santhanabharathi, K.P. Pradhoshini, M. Suhail Ahmed, M. Priyadharshini, et al.
Year: 2025
Citations: 20

4. Title: Heavy metals toxicity in edible bivalves and risk exposure to humans through its consumption from Adyar Estuary, Tamil Nadu, India – A baseline study
Authors: T.S. Chandrasekaran, J. Milton, B. Santhanabharathi, K.P. Pradhoshini, M. Priyadharshini, et al.
Year: 2024
Citations: 11

5. Title: Human health risk assessment due to consumption of dried fish in Chennai, Tamil Nadu, India: a baseline report
Authors: M. Priyadharshini, M.S. Ahmed, K.P. Pradhoshini, B. Santhanabharathi, et al.
Year: 2024
Citations: 11

6. Title: Cytopathological and ultrastructural changes in the male reproductive organs of freshwater crab Paratelphusa jacquemontii (Rathbun) exposed to nurocombi
Authors: S. Archunan, M. Athisuyambulingam, K.P. Pradhoshini, N. Yelappu, M. Priyadharshini, et al.
Year: 2022
Citations: 11

7. Title: Investigating radiation profiles and conducting risk assessment for ecological and environmental components on Vaan and Koswari islands in the Tuticorin group of islands, India
Authors: S.J.A. Krishnan, P. Nishanth, A. Venkatraman, S. Krishnakumar, M. Priyadharshini, et al.
Year: 2024
Citations: 10

8. Title: Impact of sublethal phenol in freshwater fish Labeo rohita on biochemical and haematological parameters
Authors: K. Muthukumaravel, M. Priyadharshini, V. Kanagavalli, N. Vasanthi, et al.
Year: 2023
Citations: 6

9. Title: Microbial consortium and impact of industrial mining on the Natural High Background Radiation Area (NHBRA), India – Characteristic role of primordial radionuclides
Authors: K.P. Pradhoshini, B. Santhanabharathi, M. Priyadharshini, M.S. Ahmed, et al.
Year: 2024
Citations: 5

10. Title: Radiation doses received by humans in their dwellings – A baseline report on radionuclides exposure from construction materials used in Chennai, Tamil Nadu, India
Authors: K.P. Pradhoshini, B. Santhanabharathi, A. Chandrasekaran, M.S. Ahmed, M. Priyadharshini, et al.
Year: 2025
Citations: 4

 

Susmay Nandi | Computational Fluid Dynamics | Best Researcher Award

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Dr. Susmay Nandi | Computational Fluid Dynamics | Best Researcher Award

Assistant Professor at University of Petroleum and Energy Studies, India

Dr. Susmay Nandi is an accomplished Assistant Professor in the Department of Mathematics at the University of Petroleum and Energy Studies (UPES), Dehradun, India, since April 2022. With a strong academic background and a deep commitment to applied mathematics, Dr. Nandi specializes in the analysis of magnetohydrodynamic (MHD) flows, heat and mass transfer, and non-Newtonian fluid dynamics. His scholarly pursuits have led to a significant body of work, with over 30 peer-reviewed journal publications in reputed international journals indexed in SCIE and SCOPUS. Dr. Nandi has received accolades such as the Institute Best Researcher Award from NIT Meghalaya and Best Paper Award at ICMC 2021. He actively contributes to academia as a guest editor, journal reviewer, and invited speaker at national and international forums. He is also known for fostering research collaborations across institutions in India and abroad. With his multidisciplinary approach, which includes the use of machine learning in fluid dynamics, Dr. Nandi stands out as a researcher devoted to both theoretical analysis and practical applications in computational fluid dynamics and mathematical modeling.

Professional Profile

Education

Dr. Susmay Nandi has pursued a well-rounded academic journey rooted in mathematics and computational science. He earned his Ph.D. in Mathematics from the National Institute of Technology Meghalaya (2017–2022), focusing on the analysis of magnetohydrodynamic (MHD) flows involving heat and mass transfer. His doctoral work under Dr. Bidyasagar Kumbhakar contributed to the understanding of complex fluid dynamics in engineering contexts. Prior to this, Dr. Nandi completed his M.Sc. in Mathematics and Computing from the Indian Institute of Technology Guwahati (2013–2015), securing a first-class distinction. His undergraduate education includes a B.Sc. (Honors) in Mathematics from Alipurduar College under the University of North Bengal (2010–2013), also with first-class marks. He further diversified his qualifications with a B.Ed. from the University B.T. & Evening College, North Bengal University, to enrich his pedagogical skills. His foundational schooling was marked by consistent academic excellence, achieving top scores in secondary and higher secondary examinations from Vivekananda Vidyapeeth High School in West Bengal. Dr. Nandi’s academic milestones reflect a robust foundation in pure and applied mathematics, computational methods, and educational methodologies.

Professional Experience

Dr. Susmay Nandi has been serving as an Assistant Professor in the Department of Mathematics, School of Engineering, at the University of Petroleum and Energy Studies (UPES), Dehradun, since April 2022. In this role, he teaches undergraduate and postgraduate courses such as Differential Equations, Engineering Mathematics, Discrete Mathematics, and Numerical Analysis. He also mentors students in research projects and actively engages in interdisciplinary teaching. During his doctoral tenure at NIT Meghalaya, Dr. Nandi gained extensive teaching assistantship experience. He conducted programming labs in MATLAB and C++, taught tutorial sessions, evaluated assessments, and participated in curriculum development. His responsibilities extended to conducting MATLAB programming classes for undergraduates and numerical analysis labs for postgraduates. Dr. Nandi’s teaching interests include courses like Fluid Mechanics, Integral Equations, Calculus of Variations, and Operational Research, along with computer science modules. His commitment to academic excellence is further exemplified through his organization of national-level workshops and webinars in applied sciences. His passion for teaching is matched by his ongoing research in computational fluid dynamics, hybrid nanofluids, and MHD flow modeling, contributing to a dynamic and enriched academic environment.

Research Interest

Dr. Susmay Nandi’s research interests lie primarily in the domains of fluid dynamics, heat and mass transfer, and nanofluid modeling, with a special emphasis on magnetohydrodynamic (MHD) analysis. His doctoral research addressed the complexities of MHD flows with heat and mass transfer, offering novel insights into how fluids behave under various electromagnetic and thermal influences. Dr. Nandi is particularly interested in boundary layer flow, Newtonian and non-Newtonian fluid dynamics, flow through porous and non-porous media, and the behavior of nanofluids and hybrid nanofluids. In recent years, he has expanded his focus to include the application of machine learning techniques, particularly Artificial Neural Networks (ANN), for predictive modeling in complex fluid systems. This interdisciplinary approach enables Dr. Nandi to bridge the gap between traditional mathematical modeling and modern computational intelligence. His work not only enhances the theoretical framework of fluid mechanics but also finds practical relevance in biomedical engineering, energy systems, and environmental modeling. With a strong inclination towards collaborative research, Dr. Nandi continues to explore innovative methodologies and cross-disciplinary approaches in applied mathematics.

Research Skills

Dr. Susmay Nandi possesses a versatile set of research skills rooted in applied mathematics and computational fluid dynamics. He is proficient in formulating and solving nonlinear differential equations, especially in the context of MHD, nanofluid, and hybrid nanofluid flows. His computational expertise includes the use of MATLAB, C, C++, and MATHEMATICA for numerical modeling and simulations. Dr. Nandi is adept at using analytical and semi-analytical methods such as the Shooting method, Homotopy Analysis Method, and Finite Difference Techniques for solving complex fluid flow problems. His experience with regression analysis, entropy generation studies, and stability assessments allows him to examine the physical significance and practical applicability of mathematical models. He also employs modern machine learning tools like Artificial Neural Networks to enhance predictive capabilities in fluid systems. In addition to his technical skills, Dr. Nandi is skilled in academic writing, peer review, and research dissemination through journals, conferences, and workshops. His ability to bridge theoretical analysis with real-world applications demonstrates a high level of research maturity and innovation in the domain of fluid mechanics and applied mathematics.

Awards and Honors

Dr. Susmay Nandi has received several prestigious awards and recognitions that underscore his contributions to mathematical sciences and research. Notably, he was honored with the Institute Best Researcher Award at the 3rd Research Conclave 2022 organized by NIT Meghalaya. This accolade acknowledged his high-impact publications and outstanding research achievements during his doctoral tenure. In 2021, Dr. Nandi received the Best Paper Award at the International Conference on Mathematics & Computation (ICMC-2021), demonstrating the academic community’s recognition of his original and impactful work. He also secured the 3rd prize for oral presentation in the Science & Humanities discipline during the 2021 Research Conclave at NIT Meghalaya. Earlier, he qualified for national-level research fellowships such as the Senior Research Fellowship (SRF) in 2018 and Junior Research Fellowship (JRF) examinations in 2017 at both NIT Meghalaya and IIT Guwahati. His success in competitive examinations like GATE (AIR-286) and IIT-JAM (AIR-671) further reflects his academic prowess. Collectively, these honors showcase Dr. Nandi’s dedication to research excellence and his growing reputation in the field of applied mathematics.

Conclusion

Dr. Susmay Nandi exemplifies the modern academician and researcher, combining rigorous theoretical knowledge with innovative computational methods. As an Assistant Professor at UPES, he integrates teaching, research, and academic mentorship to foster a collaborative and intellectually stimulating environment. His expansive research portfolio—spanning MHD, non-Newtonian fluids, and nanofluid dynamics—has positioned him as an influential contributor to applied mathematics and engineering sciences. Dr. Nandi’s enthusiasm for interdisciplinary collaboration, especially incorporating machine learning into traditional fluid dynamics, reflects his forward-thinking approach. His active engagement in international research networks, journal editorial boards, and conference presentations highlights his role as a thought leader in his domain. Dr. Nandi’s journey from a small town in West Bengal to becoming an award-winning scholar and assistant professor underscores his determination, resilience, and passion for scientific inquiry. His story is a testament to how a strong foundation in education, a clear research vision, and persistent effort can lead to impactful contributions in science and academia. He remains committed to advancing mathematical research and inspiring the next generation of engineers and mathematicians.

Publications Top Notes

1. Title:

Analysis of an Unsteady Mucus Flow Through an Isothermal Channel with Thermal Conduction: An Analytical Solution
Authors: Thiyagarajan P., Santra S. S., Nandi S., Altanji M.
Year: 2025
Citations: 1

2. Title:

Thermally Driven Two-Phase Shear Thinning Non-Newtonian Fluid Through the Renal Tube Induced by Electric Double Layer Effects with Variable Wall Properties
Authors: Deepalakshmi P., Shankar G., Siva E. P., Tripathi D., Beg O. A., Santra S. S., Nandi S.
Year: 2025
Citations: 1

3. Title:

Evaluation of Casson Nanofluid Bioconvective Flow Influenced by a Radiative Spinning Disc, Including Reversible Chemical Reactions with Porous Medium
Authors: Prabhakar S., Umadevi R., Santra S. S., Nandi S.
Year: 2025

Juan de Pablo | Materials Science | Best Researcher Award

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Prof. Juan de Pablo | Materials Science | Best Researcher Award

Professor and Vice President at New York University, United States

Dr. Juan José de Pablo is an internationally recognized leader in molecular engineering and materials science, currently serving as Professor and Vice President at New York University. With a distinguished academic and professional trajectory spanning over three decades, Dr. de Pablo has made pioneering contributions to soft matter physics, polymer engineering, and computational materials science. He has authored over 700 peer-reviewed publications and holds an H-index exceeding 120, reflecting the profound influence of his research. His recent roles include Executive Vice President for Global Science and Technology and Executive Dean of the Tandon School of Engineering at NYU, following a decade-long tenure at the University of Chicago. At the latter, he directed pivotal research centers and contributed to national laboratories like Argonne and Fermilab. A member of the U.S. National Academies of Engineering and Sciences, Dr. de Pablo’s interdisciplinary approach integrates theory, computation, and experimentation. His leadership in establishing large-scale scientific initiatives and educational outreach reflects a deep commitment to innovation, mentorship, and societal impact through science.

Professional Profile

Education

Dr. de Pablo began his academic journey with a Bachelor’s degree in Chemical Engineering from the National University of Mexico (UNAM) in 1985. He proceeded to earn a Ph.D. in Chemical Engineering from the University of California, Berkeley in 1990, a period during which he laid the foundation for his interest in polymeric systems and thermodynamics. Following this, he undertook a postdoctoral fellowship at ETH Zurich’s Institute for Polymers from 1990 to 1992, specializing in materials science. These formative years were instrumental in shaping his interdisciplinary research vision, blending rigorous theoretical training with practical insights. His educational background demonstrates a consistent trajectory toward advanced computational and molecular-level analysis of soft matter. The combination of leading North American and European institutions in his training reflects the global dimension of his perspective on science and engineering. These experiences equipped him with the skills to later lead international collaborations and scientific enterprises that bridge multiple disciplines, from nanotechnology to biophysics.

Professional Experience

Dr. de Pablo’s professional career is marked by leadership in academia, research management, and global scientific strategy. His early academic appointments were at the University of Wisconsin, where he progressed from Assistant to Full Professor of Chemical Engineering between 1992 and 2012. During this period, he also served as Director of the Materials Research Science and Engineering Center (MRSEC) and Deputy Director of the Nanoscale Science and Engineering Center (NSEC), driving frontier research in materials design and nanotechnology. In 2012, he joined the University of Chicago as the Liew Family Professor in the Institute for Molecular Engineering and Senior Scientist at Argonne National Laboratory. He later held multiple vice-presidential roles, overseeing national laboratories and leading global science initiatives. Currently, as Executive Vice President for Global Science and Technology and Executive Dean of NYU’s Tandon School of Engineering, he continues to shape science policy, innovation ecosystems, and advanced education. His leadership roles at UChicago-Argonne LLC and the Center for Hierarchical Materials Design (CHiMaD) further underscore his expertise in strategic research development and interdisciplinary collaboration.

Research Interest

Dr. de Pablo’s research interests span a broad spectrum within molecular and materials engineering, including soft condensed matter, computational thermodynamics, polymer physics, and biomolecular simulations. He has been instrumental in developing novel simulation techniques that enable a molecular-level understanding of materials behavior under complex conditions. His work frequently integrates theoretical frameworks with experimental data, enabling predictive modeling of systems ranging from liquid crystals to nucleic acids. More recently, he has expanded into machine learning-guided materials discovery and the design of functional materials for health, sustainability, and electronics. He is also deeply engaged in the Materials Genome Initiative, contributing to the national agenda for accelerating materials innovation. Dr. de Pablo’s research not only advances fundamental science but also facilitates translational outcomes, such as in the stabilization of biologics, nanofabrication, and soft robotics. His interdisciplinary and collaborative approach has positioned him at the forefront of modern materials science, with sustained funding from national agencies and partnerships with industry.

Research Skills

Dr. de Pablo’s research skills are characterized by exceptional breadth and depth in theoretical, computational, and applied materials science. He has pioneered algorithms for calculating free energies, explored phase transitions in complex fluids, and designed coarse-grained models for large biomolecules. His fluency in molecular dynamics, Monte Carlo simulations, and density-of-states methods is complemented by expertise in high-performance computing and GPU acceleration. He applies these tools to problems in polymer behavior, nanostructured materials, and biointerfaces. Dr. de Pablo also has deep knowledge of lithography, directed self-assembly, and patterning technologies, as evidenced by his multiple U.S. patents in these areas. Moreover, he plays a leading role in training the next generation of scientists, having supervised over 70 Ph.D. students. His entrepreneurial activities and editorial roles reflect a commitment to disseminating innovation and shaping the scientific discourse. These research capabilities, coupled with leadership in large-scale initiatives and advisory committees, make Dr. de Pablo a uniquely effective figure in both advancing science and mentoring talent.

Awards and Honors

Dr. de Pablo’s illustrious career has been recognized with over 60 prestigious awards, fellowships, and honors, reflecting his outstanding contributions to science, education, and leadership. Early in his career, he received multiple young investigator awards from the NSF, IBM, Xerox, and 3M. Notably, he was honored with the Presidential Early Career Award in Science and Engineering (PECASE) and the Presidential Faculty Fellow Award by President Clinton. He has since delivered over 40 named lectures, including the Paul Flory, Marie Curie, and Samuel C. Johnson Distinguished Lectures. Dr. de Pablo is an elected Fellow of the American Physical Society, American Academy of Arts and Sciences, and a Member of both the National Academy of Engineering and National Academy of Sciences. His recent recognitions include the Polymer Physics Prize, DuPont Medal for Excellence, and international accolades such as the Chevalier de l’Ordre du Mérite (France). These honors highlight not only his scientific excellence but also his impact as an educator, innovator, and global science diplomat.

Conclusion

Dr. Juan José de Pablo’s career exemplifies the integration of scientific brilliance, visionary leadership, and a deep commitment to global collaboration and mentorship. From his foundational training in Mexico and the U.S. to his leadership at premier institutions like the University of Chicago and NYU, he has continuously advanced the frontiers of molecular engineering and materials science. His interdisciplinary research, extensive publication record, and innovative patent portfolio showcase both depth and translational relevance. Beyond his technical achievements, Dr. de Pablo’s influence on science policy, education, and diversity initiatives reflects a holistic vision for the role of science in society. As an advisor, editor, and entrepreneur, he fosters environments where cutting-edge research meets real-world challenges. His legacy is further amplified through the numerous students and researchers he has mentored, many of whom have become leaders in their own right. Dr. de Pablo remains an inspirational figure whose work bridges disciplines, institutions, and continents in the pursuit of scientific progress and societal advancement.

Publications Top Notes

Title: Water-mediated ion transport in an anion exchange membrane
Authors: Juan J De Pablo
Year: 2025
Citations: 2

Title: Structural studies of the IFNλ4 receptor complex using cryoEM enabled by protein engineering
Authors: Juan J De Pablo
Year: 2025
Citations: 1

Title: Free-Energy Landscapes and Surface Dynamics in Methane Activation on Ni(511) via Machine Learning and Enhanced Sampling
Authors: Juan J De Pablo
Year: 2025

Title: Synthetic Active Liquid Crystals Powered by Acoustic Waves
Authors: Juan J De Pablo
Year: 2025

Title: Current Advances in Genome Modeling Across Length Scales
Authors: Juan J De Pablo
Year: 2025

Title: Chromatin structures from integrated AI and polymer physics model
Authors: Juan J De Pablo
Year: 2025
Citations: 1

Title: A Twist on Controlling the Equilibrium of Dynamic Thia-Michael Reactions
Authors: Juan J De Pablo
Year: 2025

Title: Bio-Based Surfactants via Borrowing Hydrogen Catalysis
Authors: Juan J De Pablo
Year: 2025

Title: Efficient sampling of free energy landscapes with functions in Sobolev spaces
Authors: Juan J De Pablo
Year: 2025
Citations: 1

Title: 3D Nano-architected Polymer Shell Enables Reconfigurable Stabilized Blue Phase Soft Crystals
Authors: Juan J De Pablo
Year: 2025

Shijia Lu | Medical Discoveries | Best Researcher Award

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Mr. Shijia Lu | Medical Discoveries | Best Researcher Award

Sanquan College of Xinxiang Medical University, China

Shijia Lu is an emerging biomedical researcher and Associate Editor of the Guide to Biomedical Research Tools, affiliated with Sanquan College of Xinxiang Medical University. With a foundational academic background in Biotechnology, she has focused her expertise on tumor-targeted therapy and drug resistance mechanisms. As a Student Member of the Chinese Society for Biotechnology, she actively contributes to bridging computational biology with clinical oncology. Her research integrates network pharmacology, molecular dynamics, and in silico simulations to explore anti-cancer drug discovery. Shijia has led and participated in several significant research projects, including a Henan Province Science and Technology Innovation initiative. Her contributions as first author to a peer-reviewed SCI journal article on PCNA-targeted inhibitors have drawn national recognition. She has won three national research awards and two provincial translation honors, reflecting her interdisciplinary proficiency. Known for developing dual-ligand inhibitors that counteract mutation-based resistance, her work has received acclaim in innovation competitions and scientific circles alike. Passionate about leveraging bioinformatics for real-world medical challenges, Shijia promotes tool-based translational cancer research through editorial leadership. Her professional trajectory demonstrates a strong commitment to advancing oncology therapeutics through an integrative and experimental lens, making her an excellent candidate for the Young Scientist Award.

Professional Profile

ORCID Profile

 Education

Shijia Lu holds a Bachelor’s degree in Biotechnology from Sanquan College of Xinxiang Medical University, where she built a solid foundation in the molecular and cellular mechanisms underpinning disease, especially cancer. During her academic tenure, she distinguished herself by merging theoretical coursework with hands-on laboratory research, focusing on tumor biology and pharmacological interventions. Her keen interest in bioinformatics led her to independently master essential research software such as AutoDock Vina, STRING, Cytoscape, and others, allowing her to translate genomic and proteomic data into therapeutic insights. As part of her academic progression, she actively engaged in university-sponsored research competitions and projects that emphasized the intersection of computational biology and experimental science. Her education was not confined to the classroom—she collaborated across departments on interdisciplinary initiatives, strengthening her expertise in network pharmacology, molecular simulation, and drug-target interaction studies. Her early exposure to grant-funded projects and her participation in the Henan Province Science and Technology Innovation Program further solidified her academic profile. With a rigorous academic background paired with a practical grasp of translational biomedical research, Shijia Lu is well-prepared for a long-term career in developing innovative solutions for drug-resistant cancer therapies.

 Professional Experience

Shijia Lu has cultivated an impressive blend of editorial, research, and project leadership experience. Currently serving as the Associate Editor of the Guide to Biomedical Research Tools, she curates and reviews innovative bioinformatics and molecular biology tools for cancer research, aiding scientists across disciplines. Beyond editorial responsibilities, Shijia has actively led three major university-level research projects and collaborated on a province-level scientific initiative, demonstrating both autonomy and teamwork in research execution. Her landmark role as Principal Investigator on the 2025–2026 PCNA-targeted inhibitor project marks a high point in her professional experience, where she designed dual-ligand molecules to overcome drug resistance mutations. She also oversaw the development of a patented anti-tumor drug screening system, highlighting her capacity for product-oriented research. Her consultancy work in national innovation contests, where she secured second place for a novel cancer treatment strategy, further underscores her practical contributions. Shijia’s experience spans laboratory-based experimental verification, high-level simulation, and tool development. Her engagement in both academic and translational science demonstrates a maturity beyond her years, making her an asset to collaborative biomedical innovation. Her multifaceted career blends scientific rigor with editorial insight, contributing meaningfully to cancer research advancement.

Research Interest

Shijia Lu’s research is deeply rooted in the mechanisms of tumor-targeted therapy and overcoming resistance through computational and experimental synergy. She is particularly interested in how network pharmacology, molecular docking, and bioinformatics can converge to inform drug discovery for aggressive cancers. Her ongoing work explores PCNA (Proliferating Cell Nuclear Antigen) as a pivotal target in anticancer therapy, focusing on its mutations, druggability, and protein interaction networks. Shijia leverages cutting-edge tools such as ESM-Fold, MM/GBSA simulations, and AutoDock Vina to identify novel compounds and validate them through simulation-driven predictions. Her interdisciplinary curiosity extends to toxicogenomics, as seen in her research on ribavirin-induced hemolytic anemia. A key facet of her research interest is “multi-dimensional synergy,” a concept she introduced to integrate dual-ligand designs and structural-functional coupling strategies. She also utilizes multi-omics datasets to pinpoint plant-derived bioactives, such as from pomegranate peel, offering eco-sustainable therapeutic options. This combination of wet-lab experiments and dry-lab modeling makes her approach both innovative and pragmatic. Shijia’s vision is to bridge in silico drug design with clinical applicability, ultimately reducing trial costs and improving therapeutic precision. Her research ambition is to contribute meaningfully to the fight against cancer by creating data-validated, mutation-resistant therapeutic options.

 Research Skills

Shijia Lu possesses an advanced set of interdisciplinary research skills that span computational biology, molecular pharmacology, and bioinformatics. She is proficient in molecular docking (AutoDock Vina), protein interaction analysis (STRING), pathway visualization (Cytoscape), and structure prediction (ESM-Fold). These skills have enabled her to develop innovative inhibitors, simulate their interactions under mutation conditions, and validate their potential efficacy in silico. Her command over MM/GBSA free energy calculations has been crucial in quantifying ligand-protein binding affinities in mutation scenarios. Beyond software, she is experienced in network pharmacology frameworks, toxicogenomic analysis, and data-driven compound screening, using multi-omics datasets to identify phytochemicals for anti-cancer properties. Shijia is also skilled in designing and conducting wet-lab experiments, including molecular cloning and cell-based assays, for validating computational predictions. Her capabilities extend to scientific writing, patent filing, and data visualization—key components that have facilitated her publication in an SCI-indexed journal and the development of a research reference book. Furthermore, her leadership as a principal investigator in multiple research projects shows her competence in proposal writing, budget management, and collaborative project execution. Her comprehensive skill set equips her to tackle multifaceted biomedical challenges and positions her as a strong contributor to translational cancer research.

Awards and Honors

Shijia Lu has received multiple prestigious recognitions that affirm her contributions to biomedical research and innovation. She is the recipient of three national-level awards from competitive research and innovation contests in the medical health category, including second place at the Fourth National College Students’ Innovation and Entrepreneurship Competition. Her project, “A New Anti-Cancer Strategy Targeting PCNA,” earned national acclaim for its novel approach to overcoming drug resistance using dual-ligand inhibitors. Additionally, she has won two provincial awards for excellence in scientific translation, demonstrating her ability to convey complex biomedical content across languages—a skill vital in international research collaboration. Shijia has also been recognized through institutional grants and provincial-level research sponsorships, such as the Henan Province Science and Technology Innovation Project (No: 252102310194), for which she played a leading role in experimental verification. Her achievements extend to academic publishing, with her first-author SCI paper being widely cited and referenced in cancer pharmacology studies. These accolades reflect her exceptional interdisciplinary capacity, scientific communication proficiency, and innovative mindset. Through consistent recognition at institutional, provincial, and national levels, Shijia Lu has proven herself a rising leader in biomedical research deserving of the Young Scientist Award.

Conclusion

In summary, Shijia Lu exemplifies the ideal profile of a young and dynamic biomedical researcher dedicated to tackling some of the most pressing challenges in oncology. With a robust academic background, hands-on project leadership, and deep technical skills in computational drug design and network pharmacology, she has already made notable contributions to the field of tumor-targeted therapy. Her research on PCNA-targeted inhibitors has not only earned her national recognition but also holds translational promise in overcoming cancer drug resistance. As an Associate Editor and an active member of academic societies, Shijia promotes interdisciplinary collaboration and innovation. Her commitment is evident in her editorial work, her numerous research outputs, and her continuous quest for merging digital simulation with practical experimentation. Through her combination of creativity, technical mastery, and academic leadership, she represents the new generation of scientists driving biomedical progress forward. With several national awards and published research to her credit, she is poised to contribute significantly to future breakthroughs in cancer treatment. For her excellence in research, leadership potential, and impactful contributions.

Publications Top Notes

Title:
Design and Anti-Drug Resistance Research of Novel PCNA-Targeted Inhibitors Based on Network Pharmacology and Molecular Docking

Authors:
Shijia Lu, YiRan Zhen, Jinwen Sima, Jinle Wang, Qihao Zhu, Miaoyan Han, Mengdan Sang, Xuejiao Li, Bing Zhang, Zihan Wang, et al.

Year:
2025

Salah Almudhhi | Petroleum Engineering | Best Researcher Award

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Prof. Salah Almudhhi | Petroleum Engineering | Best Researcher Award

Professor at Kuwait University, Kuwait

Dr. Salah M. Almudhhi is a distinguished academic and expert in petroleum engineering, renowned for his multidisciplinary approach that combines traditional petroleum technologies with cutting-edge innovations like nanotechnology and machine learning. With a professional journey spanning over three decades, Dr. Almudhhi currently serves as an Assistant Professor at Kuwait University, where he has played integral roles in both academic and administrative capacities. His academic credentials are rooted in petroleum engineering, having earned his B.S. from Kuwait University and his M.S. and Ph.D. from the Colorado School of Mines in the USA. Dr. Almudhhi has held leadership roles in national environmental bodies, including serving as Director General of the Environment Public Authority in Kuwait. He has published extensively in high-impact journals, with key contributions in enhanced oil recovery, wettability measurements, and rock-fluid characterization. Dr. Almudhhi has supervised numerous graduate research projects and has actively participated in national and international committees related to energy and environmental policy. Recognized with multiple honors, including the “Environment Person of the Year in Asia 2012,” he continues to bridge academia, industry, and policy through his expertise and dedication. His work is distinguished by its practical impact on sustainable energy production and environmental stewardship in the petroleum sector.

Professional Profile

Education

Dr. Salah M. Almudhhi’s educational journey reflects a robust and focused progression in the field of petroleum engineering. He began his academic pursuits at Kuwait University, where he earned a Bachelor of Science degree in Petroleum Engineering in 1994. Building upon this foundation, he pursued advanced studies at the prestigious Colorado School of Mines in the United States, where he obtained both his Master of Science in 1998 and his Doctor of Philosophy in 2003. His M.S. thesis, titled “The ‘Spinning Disk’ Approach to Capillary Pressure Measurement with a Centrifuge Experiment,” demonstrated his early focus on experimental techniques in reservoir engineering. For his Ph.D. dissertation, “Experimental Evaluation of the Petrophysical Algorithm in an Integrated Flow Model,” Dr. Almudhhi explored the integration of petrophysical data into dynamic reservoir simulations, establishing his specialization in enhanced recovery modeling. His academic training provided him with a deep understanding of both theoretical and applied aspects of petroleum systems. This solid educational background laid the groundwork for his innovative research and teaching in reservoir characterization, rock mechanics, and environmental impact assessments in the oil and gas industry. His education has continuously informed his interdisciplinary approach to engineering challenges and policy leadership.

Professional Experience

Dr. Salah M. Almudhhi brings a wealth of professional experience that bridges academia, industry, and environmental governance. He began his academic career as a Teaching Assistant at the Colorado School of Mines from 2000 to 2002. Following his Ph.D., he joined Kuwait University as an Assistant Professor in 2003 and resumed this role after a leadership stint, continuing from 2014 to the present. He served as Acting Chairman of the Petroleum Department in 2004 and played a key role in curriculum development and faculty advancement. From 2009 to 2014, Dr. Almudhhi was appointed Director General of Kuwait’s Environment Public Authority, where he simultaneously chaired multiple national environmental and energy committees. His portfolio included roles such as Executive Secretary of the Supreme Council for the Environment and State Representative to numerous UN and GCC environmental programs. He has also held prominent advisory positions in Kuwait’s Ministry of Public Works and Ministry of Education. Within the university, he has served on various departmental, college, and university-level committees, emphasizing research development, international cooperation, and strategic planning. Dr. Almudhhi’s blend of technical expertise, academic rigor, and environmental advocacy positions him as a highly influential figure in both scientific and governmental domains.

Research Interest

Dr. Salah M. Almudhhi’s research interests focus on the interplay between rock-fluid properties, enhanced oil recovery, and the integration of emerging technologies in petroleum engineering. His foundational work in rock and fluid characterization laid the basis for deeper exploration into wettability, a key factor influencing reservoir performance. His investigations into wettability measurements—particularly in carbonate and shale reservoirs—have enhanced understanding of capillary pressure behavior and contact angle variability. Dr. Almudhhi has also directed research toward the application of nanotechnology in improving oil recovery, emphasizing the role of nanoparticle-engineered fluids in tight formations. His current research delves into machine learning applications for modeling heavy oil viscosity and rock mechanics, aiming to bridge data science with traditional reservoir engineering. Through collaborative graduate research projects, he supervises work on fluid dynamics, permeability modeling, and tensile strength in relation to brine salinity. Additionally, Dr. Almudhhi maintains an active interest in environmental monitoring and its implications for upstream petroleum operations. His research is geared toward solutions that improve reservoir performance while maintaining ecological balance. With an integrative approach that spans experimental, computational, and environmental disciplines, Dr. Almudhhi continues to contribute significantly to the evolution of petroleum science and sustainability.

Research Skills

Dr. Salah M. Almudhhi possesses a comprehensive array of research skills that underscore his interdisciplinary and application-focused approach to petroleum engineering. His core technical strengths lie in rock and fluid characterization, including advanced wettability analysis, capillary pressure evaluation, and relative permeability measurements. He has significant experience with both conventional laboratory techniques and modern analytical methods such as nuclear magnetic resonance (NMR) and spinning disk centrifuge experiments. Dr. Almudhhi has developed proficiency in modeling and simulation, particularly in the use of integrated flow models to interpret petrophysical data. His recent work involves leveraging machine learning tools to predict oil viscosity and compressive strength in reservoir rocks, showcasing his adaptability in digital technologies. He also has expertise in environmental assessment methodologies, having designed impact studies and coordinated national reports under frameworks like the UNFCCC. Dr. Almudhhi’s ability to bridge experimental research with computational analytics has been reflected in over 17 peer-reviewed publications. He actively applies his research skills in supervising student projects, grant acquisition, and curriculum development. His scientific rigor, coupled with policy-driven applications, allows him to contribute meaningfully to both academic and environmental solutions in the petroleum and energy sectors.

Awards and Honors

Dr. Salah M. Almudhhi has received multiple awards and recognitions for his exceptional contributions to petroleum engineering and environmental policy. Among his most prestigious accolades is the “Environment Person of the Year in Asia” award, conferred in 2012 in Dubai, UAE. This award acknowledged his pioneering work in bridging petroleum science with environmental stewardship during his tenure as Director General of the Environment Public Authority in Kuwait. He was also the recipient of the “Award of Recognition in Environment” from the Kuwait Oil Company in 2010, reflecting his national impact on sustainable practices in the energy sector. Additionally, Dr. Almudhhi was honored with the GCC Environmental Achievement Award in Oman in 2011, which recognized his efforts in regional environmental collaboration and policy development. His involvement in numerous high-level environmental committees, both regionally and internationally, underscores the respect he commands as a scientific advisor and public policy expert. His memberships in professional societies, such as the Society of Petroleum Engineers and the Kuwait Society of Engineers, further affirm his standing in the global engineering community. These honors collectively reflect a career committed to excellence in research, teaching, and service to society.

Conclusion

In conclusion, Dr. Salah M. Almudhhi stands as a highly accomplished and visionary figure in the realm of petroleum engineering, whose work seamlessly integrates academic excellence, research innovation, and public policy leadership. With advanced degrees from the Colorado School of Mines and a longstanding commitment to Kuwait University, he has shaped a generation of engineers through his teaching, mentorship, and curricular contributions. His diverse research portfolio—ranging from wettability and nanofluid applications to machine learning modeling—demonstrates a proactive engagement with the evolving challenges of energy production. His leadership roles in environmental governance, including his service as Director General of the Environment Public Authority, reflect his dedication to sustainability and international collaboration. A recipient of multiple national and international awards, Dr. Almudhhi continues to influence both academia and public institutions through his strategic insight and interdisciplinary expertise. His legacy is not only marked by his scholarly publications and student mentorship but also by his commitment to integrating technological advancement with environmental responsibility. As a leader, educator, and researcher, Dr. Almudhhi exemplifies the transformative power of science in addressing real-world challenges in the oil and energy sectors.

Publications Top Notes

  1. Application of Machine Learning for Modeling Heavy Oil Viscosity
    Authors: Salah Almudhhi, Haitham M.S. Lababidi, Ali A. Garrouch
    Year: 2025

  2. Are Natural Fractures in Sandstone Reservoir: Water Wet – Mixed Wet – Or Oil Wet?
    Authors: Salah Almudhhi, Laila Abdullah, Waleed Al-Bazzaz, Saleh Alsayegh, Hussien Alajaj, Ralph Flori
    Year: 2022

  3. An Unconventional Approach in Investigating Wettability Contact Angle Measurement in Shale Resources
    Author: Salah Almudhhi
    Year: 2021

  4. Predicting the Flow Zone Indicator of Carbonate Reservoirs Using NMR Echo Transforms and Routine Open-Hole Log Measurements
    Authors: Salah Almudhhi, M. Al-Dousari, A. Garrouch
    Year: 2021

  5. Investigating Wettability Contact Angle Measurement in Kuwaiti Heavy Oil Reservoir and Modeling Using 2D Imaging Technologies
    Authors: Waleed Albazzaz, Salah Almudhhi, Mohammed Alostath
    Year: 2019

  6. Recovery of Crude from OVL in Joint Operations, Wafra, Kuwait
    Author: Salah M. Almudhhi
    Year: 2016

  7. Histopathological Survey of Potential Biomarkers for the Assessment of Contaminant Related Biological Effects in Species of Fish and Shellfish Collected from Kuwait Bay, Arabian Gulf
    Authors: S. Masoud, Salah Almudhhi, M. Alenezi
    Year: 2014

  8. Investigating Rock-Face Boundary Effects on Capillary Pressure and Relative Permeability Measurements
    Authors: O. A. Alomair, Salah M. Almudhhi, M. M. Aldousari
    Year: 2011

  9. An Experimental Investigation of the Impact of Diffusion Osmosis and Chemical Osmosis on the Stability of Shales
    Authors: T. Al-Bazali, Salah Almudhhi, M. Chenevert
    Year: 2011

  10. Averaging Effect on Elastic Wave Velocity in an Integrated Flow Model
    Authors: S. M. Almudhhi, O. Alomair
    Year: 2009

  11. Experimental Evaluation of the Petrophysical Algorithm in an Integrated Flow Model
    Authors: S. M. Almudhhi, J. R. Fanchi
    Year: 2009

  12. Experimental Presentation of an Integrated Flow Model
    Author: S. M. Almudhhi
    Year: 2007

Zhen Zhang | Material Science | Best Researcher Award

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Prof. Dr. Zhen Zhang | Material Science | Best Researcher Award

Professor, Doctoral Supervisor at Northwestern Polytechnical University, China

Prof. Zhen Zhang, currently serving as Professor and Doctoral Supervisor at Northwestern Polytechnical University, is an internationally recognized expert in energy electrocatalysis. He earned his Ph.D. from the University of Waterloo, Canada, where he later served as a Postdoctoral Fellow and Senior Researcher. His return to China marked the beginning of an impressive academic career supported by recognitions such as the Shaanxi Province High-Level Talent title, Young Talent of Xi’an Association for Science and Technology, and Aoxiang Overseas Scholar. Prof. Zhang has authored over 50 SCI-indexed papers with appearances in high-impact journals including JACS, Advanced Materials, Angewandte Chemie, and ACS Nano. He has published 14 ESI Highly Cited Papers, earning over 5,500 citations and an H-index of 38. Notably, he also leads over a dozen national and industrial research projects. His global collaborations, prestigious fellowships, and key editorial roles across several journals underscore his leadership in catalysis and electrochemical energy research. Through groundbreaking research in confined electrocatalysis, he continues to push the boundaries of fuel cells, CO₂ reduction, and hydrogen energy systems, making him a compelling candidate for the Best Researcher Award.

Professional Profile

Education

Prof. Zhang completed his Ph.D. in a highly competitive and research-intensive environment at the University of Waterloo, Canada, a world-leading institution in nanotechnology and electrochemical systems. During his doctoral training, he focused on fundamental and applied aspects of electrochemical energy systems, particularly in the development of functional nanomaterials for electrocatalysis. His strong academic performance and early research breakthroughs earned him numerous accolades, including the Ontario Graduate Scholarship, University of Waterloo President’s Graduate Scholarship, and the prestigious Chinese Government Award for Outstanding Self-Financed Students Abroad. These honors, limited to a small number of exceptional scholars, underscore his academic excellence and research potential. After obtaining his doctorate, he continued his academic journey at the same institution as a Postdoctoral Fellow and later as a Senior Researcher. His postdoctoral work laid a strong foundation for advanced material design and electrochemical process innovation, preparing him for his subsequent independent career in China. This robust academic background underpins his expertise in energy electrocatalysis and has greatly contributed to his impactful research in designing confined active sites and scalable electrocatalytic systems for sustainable energy applications.

Professional Experience

Prof. Zhen Zhang brings a wealth of academic and industrial research experience in electrocatalytic energy systems. After completing his Ph.D. and postdoctoral training at the University of Waterloo, he transitioned into senior research roles and significantly contributed to projects at the Waterloo Centre for Electrochemical Energy and the Ontario Battery and Electrochemistry Research Centre. His leadership roles extended to Canada’s national facilities, including the Canadian Light Source (CLS), where he spearheaded collaborative efforts in synchrotron spectroscopy. Upon joining Northwestern Polytechnical University, he quickly rose to prominence, assuming the role of Professor and Doctoral Supervisor and securing multiple high-level talent recognitions. He leads a total of 16 research projects, including national and provincial initiatives and a major industrial collaboration funded with 30 million RMB focused on fuel cell technologies. Prof. Zhang holds editorial appointments in top-tier journals and serves as a session chair at international conferences, illustrating his status in the global scientific community. His industrial experience is equally strong, with practical applications of his research findings in battery technologies and fuel cells, further enhanced through partnerships with global research leaders. Prof. Zhang exemplifies the ideal academic leader who bridges high-impact research with real-world applications.

Research Interest

Prof. Zhang’s research centers on the design and development of advanced energy electrocatalytic materials and systems. His main areas of focus include the CO₂ reduction reaction (CO₂RR), oxygen reduction/evolution reactions (ORR/OER), and hydrogen evolution/oxidation reactions (HER/HOR), all of which are central to the future of sustainable energy conversion and storage. He is particularly renowned for his innovations in confined electrocatalytic systems, where he manipulates the local chemical environment and structure at atomic scales to enhance activity, selectivity, and stability. Prof. Zhang has proposed novel frameworks for functional confined supports, hierarchical structures, and atomically dispersed active sites. His work is instrumental in breaking conventional performance trade-offs in catalysts by enabling dynamic modulation of catalytic behavior. Applications of his research span electrosynthesis, fuel cells, water electrolysis, and metal–air batteries. He integrates in situ spectroscopy and imaging tools to unravel catalyst dynamics, pushing the boundaries of fundamental understanding. His vision is to develop scalable, high-efficiency electrocatalytic systems that enable clean energy technologies, particularly for global carbon neutrality goals. Prof. Zhang’s interdisciplinary approach, combining chemistry, materials science, and engineering, positions him at the forefront of next-generation energy materials research.

Research Skills

Prof. Zhen Zhang is an expert in advanced electrochemical characterization, in situ synchrotron spectroscopy, and the rational design of nanostructured electrocatalysts. His skill set encompasses the synthesis of confined electrocatalytic structures, including zeolite-based conductive supports, bimetallic nanocatalysts, and atomic-scale active centers. He is proficient in electrochemical testing techniques such as cyclic voltammetry, electrochemical impedance spectroscopy, and membrane electrode assembly (MEA) fabrication. His strong command of in situ/operando techniques using synchrotron X-ray absorption, XPS, and transmission electron microscopy allows him to study the dynamic evolution of catalyst structures under working conditions. Prof. Zhang is adept at integrating theoretical simulations with experimental results to elucidate reaction mechanisms and guide material design. His leadership in project management is evidenced by his coordination of 16 funded projects, including industrial and interdisciplinary collaborations. Additionally, his editorial and peer-review responsibilities in high-impact journals demonstrate his critical analytical skills. His international collaborations reflect his ability to foster scientific exchange and execute large-scale research initiatives across borders. Prof. Zhang’s rare combination of synthetic, analytical, and collaborative skills makes him a uniquely effective researcher and mentor in the fast-evolving field of energy materials.

Awards and Honors

Prof. Zhen Zhang has received a distinguished array of awards and fellowships that highlight his contributions to energy research and academic leadership. Internationally, he was recognized with the Advanced Materials Award from the International Association of Advanced Materials and the prestigious Canadian Mitacs Accelerate Award—awarded to only ten individuals across Canada. As a doctoral student, he earned the highly competitive Chinese Government Award for Outstanding Self-Financed Students Abroad and the Waterloo Nanofellowship. These achievements underscore his excellence during his formative academic years. Nationally, he was named a Shaanxi Province High-Level Talent and selected as a Young Talent of the Xi’an Association for Science and Technology. He was also awarded the Aoxiang Overseas Scholar title and the University of Waterloo’s President’s Graduate Scholarship and Research Paper Award—each granted to fewer than ten scholars annually. These accolades reflect both his pioneering research in electrocatalysis and his leadership in international collaboration. As a Fellow of the Chinese Chemical Society and the Chinese Materials Research Society, Prof. Zhang continues to shape policy and innovation in material sciences. His awards affirm not just past success but a sustained trajectory of excellence and influence in advanced materials and electrochemistry.

Conclusion

Prof. Zhen Zhang is an exceptional scholar whose academic journey from the University of Waterloo to Northwestern Polytechnical University exemplifies scientific rigor, innovation, and leadership. With a research portfolio that seamlessly integrates fundamental science and industrial application, he has emerged as a trailblazer in energy electrocatalysis. His over 50 publications in top-tier journals, 14 ESI Highly Cited Papers, and an H-index of 38 reflect both the depth and impact of his work. His strong international collaborations, including with world-renowned scientists and institutions such as Argonne National Laboratory, McMaster University, and the Canadian Light Source, further validate his global research presence. Prof. Zhang’s editorial roles, fellowship in major chemical societies, and leadership in multimillion-yuan projects underscore his capability as a strategic thinker and institution-builder. His pioneering contributions to confined catalytic systems are addressing some of the most urgent global challenges in sustainable energy. As a scientist, mentor, and international collaborator, Prof. Zhang embodies the ideals of the Best Researcher Award, not only for his remarkable accomplishments but also for the promise his work holds for the future of clean energy. He is a role model for emerging researchers and a pillar in the global scientific community.

Publications Top Notes

 

  1. Title: Microporous framework membranes for precise molecule/ion separations
    Authors: H. Dou, M. Xu, B. Wang, Z. Zhang, G. Wen, Y. Zheng, D. Luo, L. Zhao, A. Yu, …
    Year: 2021
    Citations: 285

  2. Title: Constructing multifunctional solid electrolyte interface via in-situ polymerization for dendrite-free and low N/P ratio lithium metal batteries
    Authors: D. Luo, L. Zheng, Z. Zhang, M. Li, Z. Chen, R. Cui, Y. Shen, G. Li, R. Feng, …
    Year: 2021
    Citations: 279

  3. Title: Quasi-Covalently Coupled Ni–Cu Atomic Pair for Synergistic Electroreduction of CO₂
    Authors: J. Zhu, M. Xiao, D. Ren, R. Gao, X. Liu, Z. Zhang, D. Luo, W. Xing, D. Su, A. Yu, …
    Year: 2022
    Citations: 244

  4. Title: Revealing the rapid electrocatalytic behavior of ultrafine amorphous defective Nb₂O₅–x nanocluster toward superior Li–S performance
    Authors: D. Luo#, Z. Zhang# (co-first author), G. Li, S. Cheng, S. Li, J. Li, R. Gao, M. Li, …
    Year: 2020
    Citations: 237

  5. Title: Template-guided synthesis of Co nanoparticles embedded in hollow nitrogen doped carbon tubes as a highly efficient catalyst for rechargeable Zn-air batteries
    Authors: Q. Zhou, Z. Zhang, J. Cai, B. Liu, Y. Zhang, X. Gong, X. Sui, A. Yu, L. Zhao, …
    Year: 2020
    Citations: 218

  6. Title: Synergistic engineering of defects and architecture in binary metal chalcogenide toward fast and reliable lithium–sulfur batteries
    Authors: D. Luo, G. Li, Y. P. Deng, Z. Zhang, J. Li, R. Liang, M. Li, Y. Jiang, W. Zhang, …
    Year: 2019
    Citations: 216

  7. Title: Rational design of tailored porous carbon-based materials for CO₂ capture
    Authors: Z. Zhang, Z. P. Cano, D. Luo, H. Dou, A. Yu, Z. Chen
    Year: 2019
    Citations: 213

  8. Title: Regulation of outer solvation shell toward superior low‐temperature aqueous zinc‐ion batteries
    Authors: Q. Ma, R. Gao, Y. Liu, H. Dou, Y. Zheng, T. Or, L. Yang, Q. Li, Q. Cu, R. Feng, …
    Year: 2022
    Citations: 212

  9. Title: “Two Ships in a Bottle” Design for Zn–Ag–O Catalyst Enabling Selective and Long-Lasting CO₂ Electroreduction
    Authors: Z. Zhang, G. Wen, D. Luo, B. Ren, Y. Zhu, R. Gao, H. Dou, G. Sun, M. Feng, …
    Year: 2021
    Citations: 200

  10. Title: Nano-crumples induced Sn-Bi bimetallic interface pattern with moderate electron bank for highly efficient CO₂ electroreduction
    Authors: B. Ren, G. Wen, R. Gao, D. Luo, Z. Zhang, W. Qiu, Q. Ma, X. Wang, Y. Cui, …
    Year: 2022
    Citations: 191

Likun Gao | Energy Sustainability | Best Researcher Award

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Prof. Dr. Likun Gao | Energy Sustainability | Best Researcher Award

Professor at Northeast forestry University, China

Professor Likun Gao is a pioneering researcher in the interdisciplinary field of advanced wood-based materials, serving at the School of Materials Science and Engineering, Northeast Forestry University, China. His work is at the forefront of integrating wood science with cutting-edge nanotechnology, particularly focusing on wood nanogenerators, electrocatalytic wood, and multifunctional self-healing materials. With a robust foundation in wood science and engineering, he has rapidly ascended as an influential academic voice in materials research. His innovations have practical implications for sustainable energy, water splitting, environmental sensing, and extreme-condition applications. Professor Gao has authored over 40 peer-reviewed publications in premier journals such as Chem. Soc. Rev., PNAS, Energy & Environmental Science, and Advanced Functional Materials. His contributions include several highly cited papers and journal covers, affirming the novelty and impact of his research. He also holds multiple patents and has co-authored important book chapters related to electrocatalysis and wood-based functional materials. Recognized through prestigious programs like China’s National Ten Thousand Talents and the CAST Young Elite Scientists Sponsorship, Gao exemplifies the next generation of scientific leadership in sustainable and intelligent materials. His commitment to interdisciplinary collaboration and scientific innovation positions him as a transformative figure in applied materials science.

Professional Profile

Education

Likun Gao’s educational journey reflects a deep and consistent focus on wood science and materials engineering, beginning with a Bachelor of Science in Wood Science and Engineering from Northeast Forestry University in 2014. Demonstrating early academic promise, he pursued his doctoral studies at the same institution, earning a Ph.D. in Wood Science and Technology in 2020. His doctoral research was marked by a growing interest in integrating biological materials with nanotechnology to produce functional composites. As part of his Ph.D. program, Gao was selected for an international research stint at the Georgia Institute of Technology, USA, from 2018 to 2020. There, he expanded his expertise in materials science and engineering, engaging with global experts and exploring the intersection of nanomaterials and bio-based resources. This international exposure enriched his methodological rigor and allowed him to contribute to several high-impact collaborations. His academic background forms the backbone of his innovative research portfolio and underpins his current leadership in multifunctional wood-based materials. The comprehensive, cross-continental training he received has equipped him with a unique perspective on the potential of sustainable materials in modern technology.

Professional Experience

Since March 2021, Professor Likun Gao has been serving as a full Professor at Northeast Forestry University’s School of Materials Science and Engineering. In this role, he leads a dynamic research group exploring the frontier of wood nanotechnology and sustainable energy materials. Building on his doctoral and international postdoctoral experiences, he has established an impressive track record of research output and innovation. Under his leadership, the lab has produced over 40 peer-reviewed journal articles, numerous high-impact papers, and several patents. His collaborations span interdisciplinary teams focused on energy conversion, smart materials, and environmental responsiveness. In addition to his scientific output, Professor Gao is also dedicated to mentoring students and early-career researchers. He regularly supervises graduate students, fostering an environment of creativity, innovation, and academic rigor. His teaching responsibilities include advanced courses in nanomaterials, wood science, and electrocatalysis. Beyond academic instruction, Gao actively contributes to national and international research projects and often serves as a reviewer for top-tier journals. His role as a professor is multifaceted—blending research, mentorship, collaboration, and academic service—which has rapidly elevated his stature in China’s scientific community and beyond.

Research Interest

Professor Likun Gao’s research interests lie at the convergence of sustainable materials science and advanced nanotechnology, focusing particularly on wood-derived functional materials. One of his core areas is the development of wood nanogenerators, including piezoelectric and triboelectric devices, as well as cellulose-based systems. These innovations provide new pathways for harvesting renewable energy from environmental sources, especially in flexible and wearable electronics. Another major focus is electrocatalytic wood, where Gao engineers wood-based single-atom electrocatalysts for applications like water splitting, targeting efficient and green hydrogen production. He also pioneers in multifunctional, self-healing wood-based materials that exhibit unique properties such as photothermal responsiveness, anti-icing, sensing, and environmental adaptability. These materials are particularly promising for use in extreme weather conditions and smart infrastructure. His research approach is distinctly bioinspired, aiming to replicate or enhance natural functionalities through molecular-level material engineering. By leveraging the structural anisotropy and hierarchical nature of wood, Gao is able to design novel platforms for catalysis and energy generation. His interests also span surface reconstruction mechanisms, dynamic active-site modulation, and intelligent material design, reflecting a deep commitment to creating smart, eco-friendly technologies.

Research Skills

Professor Gao possesses a robust and multifaceted skill set that bridges wood science, nanotechnology, materials engineering, and electrocatalysis. His expertise includes the fabrication and functionalization of wood-derived nanogenerators, capable of converting mechanical energy into electrical energy through triboelectric and piezoelectric effects. He is also skilled in the design and synthesis of single-atom electrocatalysts embedded in wood substrates, which are essential for enhancing the kinetics of water-splitting reactions. Gao’s technical toolkit includes advanced material characterization techniques such as SEM, TEM, XPS, Raman spectroscopy, and in situ operando methods, which he uses to explore catalytic mechanisms and interface dynamics. Additionally, he has substantial experience in surface modification strategies to imbue wood-based composites with photothermal, hydrophobic, and self-healing properties. His lab routinely integrates superhydrophobic coatings, carbonization techniques, and atomic doping to create responsive multifunctional materials. Professor Gao also has notable strengths in writing scientific publications, securing research grants, and patenting novel technologies. His collaborative work with international teams underscores his ability to work across disciplines and cultural contexts, making him an agile and resourceful scientist in the global research landscape.

Awards and Honors

Professor Likun Gao has garnered widespread recognition for his pioneering work in wood-based functional materials, receiving numerous prestigious awards that underscore his contributions to scientific innovation and academic excellence. In 2023, he was selected for China’s National Ten Thousand Talents Program for High-level Young Talents—one of the country’s highest honors for young researchers. A year prior, in 2022, he was awarded the Young Elite Scientists Sponsorship Program by the China Association for Science and Technology (CAST), an accolade reserved for researchers demonstrating extraordinary potential in advancing science and technology. He also received the Excellent Young Scholar Award from the Natural Science Foundation of Heilongjiang Province, recognizing his outstanding research in applied materials. Professor Gao has contributed to 3 book chapters and authored over 40 high-quality journal articles, several of which were highlighted as ESI Highly Cited Papers, journal cover stories, or Hot Papers. His intellectual property portfolio includes five patents, reflecting a commitment to practical innovation. These honors collectively affirm his leadership in the field and serve as milestones in a career defined by creativity, scientific rigor, and impactful problem-solving.

Conclusion

In summary, Professor Likun Gao stands as a dynamic and forward-thinking figure in the fields of materials science and wood-based nanotechnology. His research bridges the gap between nature and cutting-edge engineering, offering solutions for sustainable energy, smart materials, and functional composites. With a strong academic foundation, international exposure, and a commitment to interdisciplinary research, Gao has built a formidable reputation as a scientist, educator, and innovator. His work is not only scientifically profound but also socially and environmentally relevant, addressing global challenges like clean energy, climate resilience, and sustainable resource use. Through a combination of technical expertise, scholarly productivity, and leadership, Professor Gao has earned national and international recognition. As a young academic leader, he continues to push the boundaries of material innovation while fostering the next generation of researchers. With a track record of high-impact publications, prestigious awards, and cross-disciplinary collaboration, he is well-positioned to influence both academic advancements and industrial applications. The trajectory of his career reflects a deep-seated passion for discovery and a vision for materials that are both intelligent and sustainable.

Publications Top Notes

  1. Title: Wood-based triboelectric nanogenerator integrated with superhydrophobicity and photothermal-induced self-healing for high-temperature and high-humidity environment
    Authors: M. Wang, X. Li, D. Lv, P. He, C. Yang, J. Li, L. Gao*
    Year: 2025

  2. Title: High-Loading Single Atoms via Hierarchically Porous Nanospheres for Oxygen Reduction Reaction with Superior Activity and Durability
    Year: 2025

  3. Title: Self-supported N-doped carbon-coupled Ni–Co binary nanoparticle electrodes derived from bionic design of wood cell walls for durable overall water splitting
    Authors: C. Yang, R. Jin, Z. Liu, S. Li, D. Lv, J. Liu, J. Li, Z. Lin*, L. Gao*
    Journal: Journal of Materials Chemistry A
    Year: 2024

  4. Title: Collaborative integration of ultrafine Fe₂P nanocrystals into Fe, N, P-codoped carbon nanoshells for highly-efficient oxygen reduction
    Year: 2023
    Citations: 56

Zecong Xiao | Precision Medicine | Best Researcher Award

Posted on by Applied Scientist

Assoc. Prof. Dr. Zecong Xiao | Precision Medicine | Best Researcher Award

Associate Research Fellow at The Third Affiliated Hospitial of Sun Yat sen University, China

Dr. Zecong Xiao is a distinguished Associate Research Fellow and Master’s Supervisor at the Nanomedicine Center, The Third Affiliated Hospital of Sun Yat-sen University. As a recognized member of Sun Yat-sen University’s prestigious “Hundred Talents Program” for Young Talents, Dr. Xiao is known for his pioneering research in nanomedicine, tumor immunotherapy, and tissue engineering. Born on January 5, 1992, he has swiftly risen through the academic ranks, demonstrating a strong commitment to translational biomedical research. His scientific contributions are substantiated by an H-index of 24 and over 1,900 citations. Dr. Xiao has published 49 SCI-indexed articles, with 41 of them as first or corresponding author in high-impact journals like Science Advances, ACS Nano, Bioactive Materials, and Signal Transduction and Targeted Therapy. He has effectively integrated interdisciplinary strategies in engineering, pharmacology, and immunotherapy to advance cancer treatment methodologies. Beyond his publication record, he has served as a principal investigator in numerous national and provincial research grants, with total funding exceeding 2 million RMB. His ongoing commitment to innovation, mentoring, and collaborative science positions him as a prominent thought leader in applied biomedical research in China and beyond.

Professional Profile

Education

Dr. Zecong Xiao has received comprehensive academic training across multiple disciplines relevant to pharmaceutical and biomedical research. He earned his Ph.D. in Engineering with a focus on Materials Science from Sun Yat-sen University in June 2020, where he initiated his foundational research into drug delivery systems and nanomedicine. His doctoral work equipped him with interdisciplinary expertise blending materials science, pharmacology, and immunotherapy—areas central to his current research pursuits. Prior to his doctoral studies, he completed a Master’s degree in Medicine with a specialization in Pharmacology at Wenzhou Medical University in 2017. This phase of his education provided a critical understanding of drug mechanisms and therapeutic interventions at the cellular and systemic levels. Dr. Xiao began his academic journey with a Bachelor of Science in Pharmacy from Jiangxi University of Chinese Medicine in 2014, grounding him in pharmaceutical sciences and traditional Chinese medicine. Each phase of his education not only broadened his technical skills but also deepened his commitment to translational research, laying a strong foundation for his contributions to cancer immunotherapy and advanced drug delivery technologies. His academic background showcases a rare integration of pharmacological principles and engineering applications.

Professional Experience

Dr. Zecong Xiao currently serves as an Associate Research Fellow and Master’s Supervisor at the Nanomedicine Center of The Third Affiliated Hospital of Sun Yat-sen University. Since March 2023, he has been actively involved in cutting-edge research focused on nanodrug delivery, tumor-targeting immunotherapy, and tissue engineering repair. His role involves supervising graduate students, leading national and university-level research projects, and publishing high-impact papers. Before this, from August 2020 to August 2022, Dr. Xiao completed a productive postdoctoral fellowship at The Second Affiliated Hospital of Guangzhou Medical University. During this period, he developed a number of innovative nanomedicine strategies for targeted cancer therapy, earning national-level funding and recognition. Dr. Xiao’s professional experience reflects a trajectory of consistent scientific growth, marked by deep collaborations across disciplines such as bioengineering, immunology, and clinical oncology. His participation in multi-million RMB projects, both as principal investigator and key contributor, highlights his strategic thinking and leadership. At every career stage, he has demonstrated a clear vision for applying laboratory innovation to clinical contexts. His position in Sun Yat-sen’s “Hundred Talents Program” further affirms his status as a rising star in translational biomedical research in China.

Research Interest

Dr. Zecong Xiao’s research interests lie at the dynamic interface of nanomedicine, immunotherapy, and materials science. His work is primarily focused on the design and development of smart drug delivery systems that can effectively target tumors and modulate the immune microenvironment for enhanced therapeutic efficacy. He is particularly interested in functional nanomaterials that can bypass biological barriers to deliver payloads such as siRNA, small molecules, and proteins directly to diseased tissues. Dr. Xiao’s lab explores methods for improving T-cell infiltration into solid tumors using bioorthogonal nanodrug strategies and CAR-T cell modifications. He is also deeply involved in the study of tumor interstitial pressure and how to engineer delivery platforms that overcome this hurdle. Recently, his research has expanded into tissue engineering and regenerative medicine, with projects investigating hydrogel-based scaffolds and MOF-based delivery systems for spinal cord injury and wound healing. His translational approach aims to bridge the gap between fundamental materials science and clinical applications in oncology and regenerative therapy. Overall, Dr. Xiao’s interdisciplinary focus on applying nanoscale innovations to solve complex biomedical problems situates him at the forefront of next-generation therapeutic development.

Research Skills

Dr. Zecong Xiao possesses an extensive and advanced skill set that supports his multidisciplinary research in nanomedicine and cancer immunotherapy. He is proficient in the synthesis and characterization of functional nanomaterials, including stimuli-responsive nanoparticles, metal-organic frameworks (MOFs), and hydrogel-based delivery systems. He demonstrates expertise in drug encapsulation techniques, bioorthogonal chemistry, and surface functionalization, which are critical for targeted delivery and controlled release. Dr. Xiao is also well-versed in various in vitro and in vivo experimental models, enabling comprehensive evaluation of therapeutic efficacy and biocompatibility. His ability to integrate imaging technologies such as fluorescence microscopy and ultrasound enhances his work in biodistribution and real-time tracking of nanodrugs. In immunological applications, he is skilled in flow cytometry, ELISA, cytokine profiling, and T-cell modification techniques such as CAR-T engineering. Computational modeling and statistical analysis are further tools he utilizes for experimental design and data interpretation. In addition to laboratory competencies, Dr. Xiao has demonstrated proficiency in academic writing, grant proposal development, and project management, contributing to his success in securing multiple national research grants. Collectively, these skills empower him to conduct high-impact, translational research aimed at improving clinical outcomes in oncology and tissue regeneration.

Awards and Honors

Dr. Zecong Xiao has earned significant recognition for his research contributions, highlighted by his selection into the prestigious “Hundred Talents Program” at Sun Yat-sen University—a testament to his exceptional promise as a young scientist. This competitive initiative supports top-tier early-career researchers, offering substantial research funding and institutional support. He has also received the First-Class Grant from the China Postdoctoral Science Foundation, acknowledging his groundbreaking work on matrix clearance-based nanodelivery systems to improve T-cell tumor infiltration. Dr. Xiao has served as Principal Investigator on multiple nationally and provincially funded projects, including grants from the National Natural Science Foundation of China and the Guangdong Provincial Science Fund for Applied Basic Research. His cumulative research funding exceeds 2 million RMB, reflecting the strong institutional and governmental trust in his work. In addition to funding awards, his published works have garnered widespread academic acclaim, accumulating over 1,900 citations and an H-index of 24—extraordinary achievements for a researcher of his age. His papers frequently appear in top-tier journals with impact factors exceeding 10, further underscoring the innovation and relevance of his research in the global scientific community.

Conclusion

Dr. Zecong Xiao exemplifies the next generation of translational researchers, leveraging multidisciplinary expertise to address some of the most pressing challenges in medicine. Through a strong foundation in materials science, pharmacology, and nanotechnology, he has developed innovative solutions for cancer immunotherapy and tissue engineering. His prolific academic output—comprising 49 high-impact publications and a rapidly growing citation record—reflects both the depth and breadth of his contributions. As a core member of Sun Yat-sen University’s “Hundred Talents Program,” he continues to inspire through mentorship, collaboration, and leadership in scientific research. His success in securing major research grants highlights both his visionary research goals and his strategic planning capabilities. With demonstrated excellence in both fundamental science and clinical translation, Dr. Xiao is poised to make lasting contributions to global healthcare, particularly in oncology, regenerative medicine, and nanomedicine. His career trajectory is a powerful example of how dedicated research, supported by institutional trust and personal perseverance, can drive scientific innovation with real-world impact. As his research continues to evolve, Dr. Xiao is set to remain at the forefront of biomedical discovery and application.

Publications Top Notes

1. Title: Endothelia-targeting eye drops deliver a STING inhibitor to effectively reduce retinal neovascularization in ischemic retinopathy
Authors: Siying Wen, Xuemin He, Jiachen Wang, Zheyao Wen, Heying Ai, Mengyin Cai, Yi Yang, Hejun Li, Shasha Li, Guojun Shi, Aimin Xu, Zecong Xiao, Xintao Shuai
Year: 2025

2. Title: Targeting m6A demethylase FTO to heal diabetic wounds with ROS-scavenging nanocolloidal hydrogels
Authors: Xinyao Zheng, S.Z. Deng, Yuan Li, Zhipeng Luo, Ziqi Gan, Zheng Zhang, Rui Xu, Shan Xiao, Yuxiong Cai, Jiazheng Meng, Li Li, Changxing Li, Xianghong Xue, Wei Dai, Qin Si, Mengying Wang, Kang Zeng, Zecong Xiao, Lai-Xin Xia
Year: 2025
Citations: 2

3. Title: A dissolvable microneedle platform for the delivery of tumor-derived total RNA nanovaccines for enhanced tumor immunotherapy
Authors: Jiachen Wang, Siying Wen, Yujie Jiang, Zheyao Wen, Minghao Zhang, Yuchen Li, Jujian Ye, Zecong Xiao, Xintao Shuai
Year: 2025

4. Title: A PD-L1 siRNA-Loaded Boron Nanoparticle for Targeted Cancer Radiotherapy and Immunotherapy
Authors: Shaohui Deng, Lijun Hu, Guo Chen, Jujian Ye, Siying Wen, Zecong Xiao, Xintao Shuai
Year: 2025
Citations: 2

5. Title: Tertiary lymphoid structure formation induced by LIGHT-engineered and photosensitive nanoparticles-decorated bacteria enhances immune response against colorectal cancer
Authors: Lijun Hu, Tan Li, Shaohui Deng, Honglin Gao, Yujie Jiang, Qiu Chen, Hui Chen, Zecong Xiao, Xintao Shuai, Zhongzhen Su
Year: 2025
Citations: 4

Quanbing Liu | Energy Sustainability | Best Researcher Award

Posted on by Applied Scientist

Prof. Quanbing Liu | Energy Sustainability | Best Researcher Award

Professor of Guangdong University of Technology, China

Professor Quanbing Liu is a distinguished figure in the field of applied chemistry and electrochemical energy systems, currently serving as a full professor and doctoral supervisor at Guangdong University of Technology. With a strong foundation in applied chemistry, he has emerged as a key contributor to innovations in energy storage technologies, including lithium-ion, lithium-sulfur batteries, fuel cells, and supercapacitors. Dr. Liu has led numerous national and industrial research projects, with an extensive portfolio of 118 peer-reviewed scientific publications and 111 patents, showcasing his capacity for both academic excellence and practical innovation. His contributions have significantly advanced China’s energy technology sector. Recognized for his excellence, he holds prestigious titles such as Guangdong “Pearl River Scholar” and Guangzhou “Pearl River Science Star.” Dr. Liu has also served as a science advisor and expert reviewer for national science foundations and has held visiting scholar roles at leading international institutions. His robust collaboration with industry and government, combined with editorial roles in reputed scientific journals, reinforces his standing as a leading applied scientist. He is currently nominated for the Best Researcher Award for his pioneering contributions to the field of electrochemical energy.

Professional Profile

Education

Professor Quanbing Liu’s educational foundation in applied chemistry laid the groundwork for his successful research career. He earned his Bachelor of Science degree in Applied Chemistry from Wuhan Institute of Technology in 2007, where he developed a deep interest in chemical engineering and materials science. He then pursued doctoral studies at the South China University of Technology, completing his Ph.D. in Applied Chemistry in 2012. During his doctoral work, he focused on advanced materials and electrochemical energy systems, setting the stage for his subsequent innovations in lithium-ion battery technologies and energy storage solutions. His academic background has been instrumental in his ability to translate theoretical knowledge into high-impact industrial applications. This strong educational base continues to influence his current roles in mentoring doctoral students and leading breakthrough research at Guangdong University of Technology.

Professional Experience

Professor Liu’s professional journey is marked by a blend of academic, industrial, and governmental engagement. He began his career in research and development roles at the China Electric Power Research Institute (2012–2015), where he worked on lithium battery technologies. This was followed by a strategic role at Guanyu Battery (2015–2016), where he contributed to the commercialization of energy storage solutions. Since 2016, he has served as a Professor and Doctoral Supervisor at Guangdong University of Technology. He has also been a visiting scholar at the University of California, Riverside (UCR) and the Hong Kong University of Science and Technology (HKUST) in 2018, reflecting his international collaboration and research outreach. In 2017, he began serving in advisory roles for the National Natural Science Foundation of China (NSFC). His career trajectory demonstrates a rare ability to bridge academic theory and real-world application, making him an ideal candidate for awards recognizing applied scientific excellence.

Research Interests

Professor Liu’s research is centered on the development of advanced electrochemical energy storage and conversion systems, with a specific focus on lithium-ion and lithium-sulfur batteries, fuel cells, and supercapacitors. His work aims to address critical challenges in the new energy chemical industry by enhancing the energy density, cycle life, and safety of batteries and storage devices. A core component of his research involves material innovation—synthesizing novel electrode and electrolyte materials that improve electrochemical performance. He also investigates mechanisms at the atomic and molecular level using advanced characterization techniques. By integrating theory, experimentation, and industrial needs, Dr. Liu contributes to green energy transition efforts, supporting both electric mobility and large-scale energy storage applications. His projects often receive support from national and defense sectors, reflecting the strategic relevance of his research. Through multidisciplinary collaboration and cutting-edge science, his work plays a vital role in shaping the future of energy technology.

Research Skills

Professor Liu brings a comprehensive skill set in the domain of electrochemical materials and systems, combining deep scientific expertise with practical innovation capabilities. He is adept at battery design, electrode material synthesis, electrochemical performance analysis, and in-situ/operando characterization techniques. His ability to lead multi-disciplinary teams is evident in his coordination of national-level projects, where he integrates knowledge from chemistry, materials science, and electrical engineering. He possesses strong technical writing and presentation skills, having authored over 110 high-impact SCI papers and filed more than 100 patents. His industry exposure allows him to bridge the gap between laboratory findings and product development. Furthermore, Dr. Liu has experience with scientific instrumentation, safety protocols in battery testing, and lifecycle assessment methodologies. As a doctoral mentor and journal editorial board member, he demonstrates critical reviewing and mentoring skills, fostering academic rigor and ethical research standards in the scientific community. His strong analytical mindset and results-oriented approach make him a leader in applied scientific research.

Awards and Honors

Professor Quanbing Liu has received multiple prestigious recognitions for his outstanding contributions to science and technology. He is a recipient of the Guangdong “Pearl River Scholar” and Guangzhou “Pearl River Science Star” titles, awards that highlight top scientific talent in the region. His innovative research on lithium-ion battery systems earned him the Second Prize for Scientific Progress from Guangdong Province. Dr. Liu’s academic impact is further validated by his impressive citation record, with over 2,500 citations of his published works. He is regularly invited to serve as an expert reviewer for China’s Ministry of Science and Technology, the National Natural Science Foundation, and the Guangdong Department of Science and Technology. His achievements also include numerous invitations to editorial boards of high-ranking journals such as Chinese Chemical Letters, Rare Metals, and the Journal of Power Sources. These honors recognize not only his scientific innovation but also his influence on policy, education, and research leadership in China and abroad.

Conclusion

Professor Quanbing Liu embodies the qualities of an outstanding applied scientist—innovation-driven, industry-connected, and academically accomplished. His prolific output, including over 110 journal publications, 111 patents, and several high-impact research projects, stands as a testament to his dedication to advancing electrochemical energy systems. Through sustained collaborations with both international universities and domestic industry, Dr. Liu bridges the gap between fundamental research and practical application. His dual focus on scientific discovery and commercialization has helped shape battery technologies that serve real-world needs in energy storage and electric mobility. As an editorial board member, doctoral mentor, and governmental advisor, he continues to shape the broader research ecosystem in China. His work not only propels forward the field of electrochemical energy but also contributes to the nation’s strategic energy goals. In recognition of his transformative contributions and leadership in applied chemistry, Professor Liu is a deserving nominee for the Best Researcher Award under the Applied Scientist Awards program.

Publications Top Notes

  • Title: Construction of high-throughput interface phase using boron containing anions to regulate solvation structure and achieve high-performance sodium metal batteries
    Year: 2025

  • Title: Research progress on the structure design of nano-silicon anode for high-energy lithium-ion battery
    Year: 2025

  • Title: D-Band Center Modulation of Fe-Doping CoSe₂ to Accelerate Polysulfide Conversion for High-Performance Lithium–Sulfur Battery
    Year: 2025

  • Title: Heterogeneity-Segment Charge-Induced-Coupling Catalysis of Component-Selective-Type Covalent Organic Frameworks Interface toward Stabilizing Lithium Metal Anode
    Year: 2025
    Citations: 1

  • Title: Synthesis of a hollow MoSe₂@MXene anode material for sodium-ion batteries
    Year: 2025
    Citations: 1

  • Title: Functional gel materials for next-generation electrochromic devices and applications
    Type: Review
    Year: 2025

  • Title: Morphology engineering of hollow core@shell structured Co₃O₄@CuO-NiO for fast hydrogen release from ammonia borane methanolysis
    Year: 2025
    Citations: 11

  • Title: Small intestinal structure Ni₂P-CNTs@NHCF nanoreactor accelerating sulfur conversion kinetics for high performance lithium-sulfur batteries
    Year: 2025
    Citations: 3

  • Title: Tuning the Unloading and Infiltrating Behaviors of Li-Ion by a Multiphases Gradient Interphase for High-Rate Lithium Metal Anodes
    Year: 2025
    Citations: 1

  • Title: Sodium Phytate Cross-Linked Polyacrylic Acid as Multifunctional Aqueous Binder Stabilizes LiNi₀.₈Co₀.₁Mn₀.₁O₂ to 4.6 V