Category: Biography

Alexander Ermoshin | Plant Physiology | Best Research Article Award

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Assoc. Prof. Dr. Alexander Ermoshin | Plant Physiology | Best Research Article Award

Ural Federal University | Russia

Assoc. Prof. Dr. Alexander Ermoshin is an accomplished researcher in plant biotechnology, experimental biology, and biochemical analysis of medicinal plants and xylotrophic fungi. With a solid academic foundation that includes a Bachelor’s and Master’s degree in Biology, a Ph.D. in Plant Physiology and Biochemistry, and an additional Master’s in Management and Business Administration, he brings a rare combination of scientific depth and interdisciplinary insight to his work. His research portfolio centers on plant cell culture, secondary metabolite biosynthesis, abiotic stress physiology, molecular genetics of transgenic plants, and the biochemical profiling of fungal species. Dr. Ermoshin has authored 36 scientific documents, accumulating 138 citations and achieving an h-index of 7, reflecting the growing academic influence and relevance of his contributions across several subfields of biological sciences. He has collaborated extensively with national and international research institutions, including research stays and joint projects with universities and scientific academies in Poland, the Czech Republic, China, and the United States. These collaborations have strengthened his capacity to integrate diverse methodologies such as UHPLC-based biochemical profiling, antioxidant activity modeling, genetic transformation techniques, and molecular diagnostic tools. His recent publications in journals such as Russian Journal of Plant Physiology, International Journal of Molecular Sciences, Horticulturae, Chemical Papers, Frontiers in Forests and Global Change, and others demonstrate his sustained contribution to understanding plant and fungal bioactive compounds, stress responses, and environmental adaptation. Beyond academic impact, Dr. Ermoshin’s work holds significant societal value, particularly in the development of stress-resilient crops, biotechnological applications of medicinal plants, and the exploration of fungal metabolites with potential pharmaceutical and agricultural relevance. His growing research influence, commitment to international collaboration, and multidisciplinary expertise underscore his role as an emerging leader in plant biotechnology and applied biological sciences.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

Ostroushko, A. A., Permyakova, A. E., Zhulanova, T. Yu., Ermoshin, A. A., Melentsova, A. A., Mansurov, R. R., & Kuznetsov, D. K. (2025). Preparation and antibacterial properties of alumina–silver nanocomposites. Russian Journal of Inorganic Chemistry.

Maleva, M., Borisova, G., Tugbaeva, A., Malakheeva, A., Voropaeva, O., Ermoshin, A., & Betekhtina, A. (2025). Rhizobacteriome diversity and morphophysiological features of three tomato plant varieties under nitrogen deficiency. Nitrogen, 6(4), 102.

Petrova, I. M., Ermoshin, A. A., & Khatsko, S. L. (2025). Wound-healing effect of substances based on lanolin and Ganoderma applanatum and Fomitopsis pinicola (xylotrophic basidiomycetes) extracts. Bulletin of Siberian Medicine.

Tugbaeva, A. S., Ermoshin, A. A., Shiryaev, G. I., & Kiseleva, I. S. (2025). Microbiome of the soil and rhizosphere of the halophyte Spergularia marina (L.) Griseb in the saline sites of Lake Kurgi, the South Urals: Metagenomic analysis. Microbiology Research, 16(3), 64.

Glazyrina, M., Chukina, N., Lukina, N., Filimonova, E., & Ermoshin, A. (2024). Morphological and biochemical characteristics of Dendranthema zawadskii growing on industrial dumps and in introduction (Middle Ural). BIO Web of Conferences, 128, 00021.

Maoting Xia | Materials Science | Best Researcher Award

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Dr. Maoting Xia | Materials Science | Best Researcher Award

Hunan University | China

Dr. Maoting Xia is an emerging scholar in advanced electrochemical energy storage, specializing in the fundamental understanding and optimization of next-generation secondary battery systems. His work spans safe and sustainable aqueous batteries, electrolyte innovation, and high-energy-density lithium- and potassium-based storage technologies. With strong interdisciplinary training across physics, materials engineering, and polymer science, Dr. Xia has built a diverse research portfolio that integrates mechanistic studies, structural characterization, and device-level performance evaluation. He has authored 42 scientific publications, accumulated 2,740 citations, and achieved an impressive h-index of 27, reflecting the global reach and influence of his contributions. Dr. Xia’s research has led to high-impact publications in leading journals including Energy & Environmental Science, Advanced Energy Materials, Advanced Functional Materials, Chemical Engineering Journal, Materials Today, and Small Methods, with several works recognized as Highly Cited and Hot Papers. His notable achievements include pioneering hydrogen-bond regulation strategies for hybrid electrolytes, advancing interphase engineering for high-voltage potassium-ion batteries, and designing innovative aqueous potassium, ammonium, and metal–sulfur battery chemistries. Beyond his individual accomplishments, Dr. Xia collaborates extensively with national and international research teams, contributing to multi-institutional studies and co-authoring scholarly works with experts across electrochemistry, materials physics, and device engineering. His involvement in the development of an electrochemical monograph further demonstrates his commitment to scholarly dissemination and educational impact. Dr. Xia’s research addresses pressing global challenges surrounding renewable energy storage, sustainable battery materials, and the safety of large-scale electrochemical systems. Through a combination of scientific rigor, creativity, and multidisciplinary collaboration, he continues to advance fundamental knowledge while contributing to the development of practical energy solutions with societal, technological, and environmental relevance.

Profiles: Scopus 

Featured Publications

Xia, M., Fu, H., Lin, K., Rao, A. M., Cha, L., Liu, H., Zhou, J., Wang, C., & Lu, B. (2024). Hydrogen-bond regulation in organic/aqueous hybrid electrolyte for safe and high-voltage K-ion batteries. Energy & Environmental Science, 17, 1255–1265.

Xia, M., Zhou, J., & Lu, B. (2025). Comprehensive insights into aqueous potassium-ion batteries. Advanced Energy Materials, 15, 2404032.

Zhang, J., Shen, M., Xia, M., Fu, H., Ding, C., Rao, A. M., Zhou, J., Fan, L., & Lu, B. (2022). Dual-halide electrode–electrolyte interphase for high-voltage potassium-ion batteries. Advanced Functional Materials, 32, 2205879.

Xia, M., Feng, Y., Wei, J., Rao, A. M., Zhou, J., & Lu, B. (2022). A rechargeable K/Br battery. Advanced Functional Materials, 32, 2205879.
(Note: Same article number, ensure the source list is correct.)

Xia, M., Zhang, X., Yu, H., Yang, Z., Chen, S., Zhang, L., Shui, M., Xie, Y., & Shu, J. (2021). Hydrogen bond chemistry in Fe₄[Fe(CN)₆]₃ host for aqueous NH₄⁺ batteries. Chemical Engineering Journal, 421, 127759.

Zarifeh Raji | Biological Sciences | Best Researcher Award

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Dr. Zarifeh Raji | Biological Sciences | Best Researcher Award

University of Laval | Canada

Dr. Zarifeh Raji is an emerging scholar in food science and environmental sustainability whose work bridges advanced research with practical innovation in the food industry. With a strong interdisciplinary foundation, she focuses on developing sustainable strategies for toxic metal removal using agro-food byproducts, advancing both environmental protection and clean-label food production. Her research integrates adsorption science, food waste valorization, dietary fiber chemistry, and AI-driven process optimization, reflecting a novel and future-oriented vision for sustainable food systems. Dr. Raji has authored 7 peer-reviewed publications, accumulating over 300 citations and achieving an h-index of 5, with contributions appearing in leading journals such as Chemosphere, Trends in Food Science & Technology, and Biomass Conversion & Biorefinery. Her work is widely recognized for its innovation in converting agricultural residues into high-performance biosorbents for heavy-metal remediation, offering scalable solutions for water and soil safety. Her professional experience spans more than a decade in the food industry, where she has served in R&D, product formulation, supply chain quality management, and key account leadership roles. In these capacities, she has led new product development initiatives, optimized bakery formulations, managed regulatory compliance, and applied data-driven strategies to enhance processing efficiency. She has collaborated extensively with multidisciplinary teams in academia and industry, contributing to research supervision, equipment management, and technology transfer initiatives. Her technical expertise includes sensory analysis, process optimization, microbial testing, and proficiency in analytical and computational tools such as Minitab, SAS, MATLAB, Power BI, and AI modeling frameworks. Dr. Raji’s work has significant societal impact, addressing global challenges related to food safety, environmental contamination, waste management, and sustainable production. Her research supports circular economy principles by transforming food waste into valuable functional materials, reducing environmental burden while improving industrial sustainability. Through her scientific contributions, cross-functional collaborations, and commitment to advancing eco-innovative solutions, Dr. Raji continues to play a vital role in shaping the future of sustainable food technologies and environmental remediation.

Profiles: Scopus | Google Scholar | ORCID

Featured Publications

Raji, Z., Karim, A., Karam, A., & Khalloufi, S. (2023). Adsorption of heavy metals: Mechanisms, kinetics, and applications of various adsorbents in wastewater remediation—A review. Waste, 1(3), 775–805.

Raji, Z., Khodaiyan, F., Rezaei, K., Kiani, H., & Hosseini, S. S. (2017). Extraction optimization and physicochemical properties of pectin from melon peel. International Journal of Biological Macromolecules, 98, 709–716.

Raji, Z., Karim, A., Karam, A., & Khalloufi, S. (2023). A review on the heavy metal adsorption capacity of dietary fibers derived from agro-based wastes: Opportunities and challenges for practical applications in the food industry. Trends in Food Science & Technology, 137, 74–91.

Karim, A., Raji, Z., Karam, A., & Khalloufi, S. (2023). Valorization of fibrous plant-based food waste as biosorbents for remediation of heavy metals from wastewater—A review. Molecules, 28(10), 4205.

Karim, A., Raji, Z., Habibi, Y., & Khalloufi, S. (2024). A review on the hydration properties of dietary fibers derived from food waste and their interactions with other ingredients: Opportunities and challenges for their application. Critical Reviews in Food Science and Nutrition, 64(32), 11722–11756.

Filiz Keleş | Materials Science | Best Researcher Award

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Assist. Prof. Dr. Filiz Keleş | Materials Science | Best Researcher Award

Niğde Ömer Halisdemir University | Turkey

Assist. Prof. Dr. Filiz Keleş is a dedicated materials physicist whose research spans semiconductor nanostructures, thin films, and next-generation photovoltaic and optoelectronic devices, contributing to the advancement of sustainable energy and nanotechnology-driven applications. Her expertise integrates experimental thin-film deposition, nanorod-based device engineering, optical modeling, and semiconductor characterization, with a particular focus on GaN, Si, InGaN, CIGS, and perovskite systems that hold transformative potential for high-performance photodetectors and solar-energy technologies. Dr. Keleş has authored 13 peer-reviewed research papers, accumulating 73 citations and an h-index of 6, demonstrating a steadily growing scientific influence in solid-state physics and thin-film technology. She has contributed to multiple national-scale R&D projects, including TÜBİTAK-supported programs on CIGS thin-film development, monolithic tandem solar cells, and silicon purification, reflecting her ability to bridge fundamental physics with industrially relevant innovation. Her patent on flexible CIGS/perovskite tandem devices underscores her commitment to translating laboratory research into scalable, real-world solutions aligned with global clean-energy priorities. Beyond her research output, Dr. Keleş has collaborated with interdisciplinary teams across materials science, chemistry, and electrical engineering, fostering knowledge exchange and strengthening the scientific community’s understanding of advanced semiconductor processes. She actively contributes to academic development through teaching responsibilities in physics and materials science and the supervision of graduate research on optoelectronic device design and thin-film engineering. Her work carries meaningful societal impact by addressing key challenges in energy efficiency, device sustainability, and nanomaterial integration, supporting broader global objectives toward renewable energy transition and green-technology innovation. With a strong research portfolio, evolving citation impact, and clear scientific vision, Dr. Keleş continues to advance the frontier of semiconductor physics and remains positioned as a promising contributor to future breakthroughs in high-efficiency, low-cost photovoltaic and optoelectronic systems.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

Cansizoglu, M. F., Hamad, S. M., Norman, D. P., Keles, F., Badraddin, E., … (2015). PiN InGaN nanorod solar cells with high short-circuit current. Applied Physics Express, 8(4), 042302.

Keles, F., Cansizoglu, H., Badraddin, E. O., Brozak, M. P., Watanabe, F., … (2016). HIPS-GLAD core–shell nanorod array photodetectors with enhanced photocurrent and reduced dark current. Materials Research Express, 3(10), 105028.

Badradeen, E., Brozak, M., Keles, F., Al-Mayalee, K., & Karabacak, T. (2017). High performance flexible copper indium gallium selenide core–shell nanorod array photodetectors. Journal of Vacuum Science & Technology A, 35(3).

Keles, F., Cansizoglu, H., Brozak, M., Badraddin, E., & Karabacak, T. (2016). Conformal core–shell nanostructured photodetectors with enhanced photoresponsivity by high-pressure sputter deposition. MRS Advances, 1(28), 2045–2050.

Hamad, S. M., Norman, D. P., Chen, Q. Y., Keles, F., & Seo, H. W. (2013). Competitive In and Ga incorporations for InxGa1−xN (0.29 < x < 0.36) nanorods grown at a moderate temperature. AIP Advances, 3(7).

Sayan Banik | Materials Science | Best Researcher Award

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Mr. Sayan Banik | Materials Science | Best Researcher Award

National Institute of Science Education and Research | India

Sayan Banik is a Senior Research Fellow at the School of Physical Sciences, National Institute of Science Education and Research (NISER), where he specializes in theoretical condensed matter physics with a focus on topological magnetism, multiscale materials modeling, and superconducting hybrid systems. His research spans first-principles electronic structure calculations, atomistic spin simulations, micromagnetic modeling, and Bogoliubov–de Gennes–based superconductivity studies, enabling a comprehensive understanding of emergent magnetic textures such as skyrmions, antiskyrmions, and topological soliton lattices. He has developed expertise in state-of-the-art computational tools including JUKKR, FLEUR, VASP, SPIRIT, MUMAX3, and custom tight-binding codes, supported by strong programming proficiency in Python, C++, Fortran, and scientific visualization environments. Sayan’s contributions include multiple high-impact publications in internationally recognized journals such as Physical Review B (Letters) and Advanced Science, where his works on noncollinear magnetism, skyrmion-antiskyrmion phases, and topological superconductivity have attracted increasing scholarly attention. His collaborative research engagements extend to the Peter Grünberg Institute, Forschungszentrum Jülich, working with eminent scientists in quantum condensed matter theory. His academic achievements are further supported by competitive fellowships, including the Junior/Senior Research Fellowship of the Department of Atomic Energy and the INSPIRE Scholarship of the Department of Science and Technology. He has also qualified multiple national-level examinations such as NET, GATE, JEST, JAM, and NGPE. Beyond research publications, Sayan has actively contributed to the scientific community through conference talks, poster presentations, participation in international schools, and teaching assistance roles in computational physics and laboratory courses. His work contributes to advancing theoretical frameworks that support future innovations in spintronics, quantum materials, and hybrid superconducting devices, offering long-term societal impact through potential applications in energy-efficient information technologies and quantum computing platforms. With a strong foundation in theory, expanding collaborations, and a steadily growing research profile, Sayan Banik represents a promising early-career researcher poised for significant contributions to next-generation condensed matter physics.

Profiles: ORCID | Google Scholar

Featured Publications

Chatterjee, P., Banik, S., Bera, S., Ghosh, A. K., Pradhan, S., Saha, A., … (2024). Topological superconductivity by engineering noncollinear magnetism in magnet/superconductor heterostructures: A realistic prescription for the two-dimensional Kitaev model. Physical Review B, 109(12), L121301.

Banik, S., & Nandy, A. K. (2025). Skyrmion–antiskyrmion lattice: A net-zero topological phase in low-symmetry frustrated chiral magnets. Physical Review B, 112(14), L140404.

Banik, S., Kiselev, N. S., & Nandy, A. K. (2025). Paradoxical topological soliton lattice in anisotropic frustrated chiral magnets. Advanced Science, e14568.

Avanidhar Subrahmanyam | Econometrics and Finance | Best Researcher Award

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Prof. Avanidhar Subrahmanyam | Econometrics and Finance | Best Researcher Award

UCLA | United States 

Prof. Avanidhar Subrahmanyam is a globally recognized scholar in finance whose work has significantly shaped contemporary understanding of market microstructure, asset pricing, liquidity dynamics, and behavioral influences in financial decision-making. With a prolific academic record of 122 research documents, more than 15,960 citations, and an h-index of 49, he ranks among the most influential voices in modern financial economics. His research has appeared in premier journals and is frequently referenced in policy discussions, regulatory modeling, and advanced financial analytics, underscoring the practical relevance and theoretical depth of his contributions. Prof. Subrahmanyam is particularly renowned for pioneering insights into how investor psychology, information asymmetries, and market frictions influence asset prices and trading behavior—work that has advanced both academic discourse and real-world market design. His expertise extends across empirical finance, econometric modeling, and interdisciplinary research intersecting economics, psychology, and data science. Throughout his career, he has actively collaborated with leading international researchers, contributing to multi-institutional and cross-disciplinary projects that enhance global understanding of financial markets. These collaborations have resulted in influential frameworks used by practitioners, central banks, investment institutions, and risk-management bodies. His scholarship has played a critical role in informing studies related to liquidity crises, high-frequency trading, behavioral anomalies, and investor welfare, providing valuable guidance to regulators and industry leaders seeking to design stable and transparent markets. Prof. Subrahmanyam’s work also carries strong societal impact, offering analytical foundations for improving market fairness, mitigating systemic risks, and strengthening the financial resilience of economies.

Profiles: Scopus | Google Scholar

Featuered Publications

Daniel, K., Hirshleifer, D., & Subrahmanyam, A. (1998). Investor psychology and security market under‐ and overreactions. The Journal of Finance, 53(6), 1839–1885.

Brennan, M. J., & Subrahmanyam, A. (1996). Market microstructure and asset pricing: On the compensation for illiquidity in stock returns. Journal of Financial Economics, 41(3), 441–464.

Chordia, T., Roll, R., & Subrahmanyam, A. (2000). Commonality in liquidity. Journal of Financial Economics, 56(1), 3–28.

Chordia, T., Roll, R., & Subrahmanyam, A. (2001). Market liquidity and trading activity. The Journal of Finance, 56(2), 501–530.

Brennan, M. J., Chordia, T., & Subrahmanyam, A. (1998). Alternative factor specifications, security characteristics, and the cross-section of expected stock returns. Journal of Financial Economics, 49(3), 345–373.

Shehzad Ahmed | Energy | Best Researcher Award

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Dr. Shehzad Ahmed | Energy | Best Researcher Award

Shanghai Jiaotong University | China

Dr. Shehzad Ahmed is a materials scientist whose research advances fundamental and applied understanding of amorphous and energy-storage materials, with a particular emphasis on phase-change memory systems, transition-metal carbides, porous carbon frameworks, and advanced battery technologies. His work investigates atomic-scale structure, electronic behavior, and crystallization kinetics in disordered materials using state-of-the-art computational tools, including density functional theory, multiscale modeling, and high-precision simulation packages such as VASP, CP2K, Materials Studio, and VMD. Dr. Ahmed completed research training across internationally recognized laboratories, contributing to projects spanning condensed matter physics, nanomaterials engineering, and theoretical chemistry. He has authored numerous peer-reviewed publications in reputable journals such as Physical Chemistry Chemical Physics, Nanoscale, npj Computational Materials, Materials Today Chemistry, Small, Optics Express, and Journal of Physical Chemistry C, demonstrating both scientific depth and multidisciplinary reach. His work has also appeared in special issues dedicated to advances in photonic phase-change materials and structural evolution in Sb–Te alloys, highlighting his expertise in memory materials relevant to future high-speed photonic and electronic devices. He maintains active collaborations with researchers in China, Pakistan, Europe, and beyond, contributing theoretical insights to experimental and engineering groups working on batteries, metasurfaces, photonics, and electrocatalysis. Dr. Ahmed’s research initiatives address globally relevant technological challenges, including sustainable energy storage, next-generation data memory systems, and efficient optoelectronic platforms. Through computational materials discovery, he contributes pathways for designing high-capacity anodes, high-performance cathodes, 3D porous structures, and tunable nanophotonic elements. His scientific output, supported by continuous collaborations and diverse research environments, reflects a growing impact on the broader materials science community. Collectively, his work advances the international effort to develop more efficient, durable, and sustainable materials for energy and information technologies, reinforcing his position as an emerging researcher with significant contributions to modern materials research.

Profile: Google Scholar

Featuered Publications

Ali, L., Ali, B., Liu, X., Ahmed, S., & Shah, M. A. (2022). Analysis of bio-convective MHD Blasius and Sakiadis flow with Cattaneo–Christov heat flux model and chemical reaction. Chinese Journal of Physics, 77, 1963–1975.

Idrees, M., Batool, S., Din, M. A. U., Javed, M. S., Ahmed, S., & Chen, Z. (2023). Material-structure-property integrated additive manufacturing of batteries. Nano Energy, 109, 108247.

Farooq, U., Shah, U. A., Ishaq, M., Hu, J. G., Ahmed, S., Chen, S., Zheng, Z. H., Su, Z. H., … (2023). Defects passivation by solution-processed titanium doping strategy towards high efficiency kesterite solar cells. Chemical Engineering Journal, 451, 139109.

Younis, U., Muhammad, I., Wu, W., Ahmed, S., Sun, Q., & Jena, P. (2020). Assembling Si₂BN nanoribbons into a 3D porous structure as a universal anode material for both Li- and Na-ion batteries with high performance. Nanoscale, 12(37), 19367–19374.

Ali, A., Liang, Y., Ahmed, S., Yang, B., Guo, B., & Yang, Y. (2020). Mutual contaminants relational realization and photocatalytic treatment using Cu₂MgSnS₄ decorated BaTiO₃. Applied Materials Today, 18, 100534.

Md. Saiful Islam Siddiqui | Veterinary Medicine | Best Researcher Award

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Prof. Dr. Md. Saiful Islam Siddiqui | Veterinary Medicine | Best Researcher Award

Sylhet Agricultural University |Bangladesh

Prof. Dr. Md. Saiful Islam Siddiqui is a distinguished academic and researcher recognized for his contributions to the fields of mechanical and manufacturing engineering, materials science, and sustainable industrial systems. His scholarly pursuits are grounded in advancing innovative approaches that bridge theoretical research with practical industrial applications, emphasizing energy efficiency, sustainable materials development, and precision manufacturing. With 10 research publications, 20 citations, and an h-index of 3, Prof. Siddiqui has demonstrated a consistent trajectory of academic growth and research influence. His work reflects a strong commitment to developing environmentally responsible technologies and enhancing engineering design processes to meet evolving global industrial demands. Throughout his academic career, Prof. Siddiqui has been actively engaged in collaborative research, working with multidisciplinary teams that integrate mechanical design, materials optimization, and computational modeling to solve complex engineering problems. His dedication to knowledge dissemination is evident through his research publications, mentorship of young scholars, and participation in academic conferences and seminars. These contributions have strengthened both his institutional research culture and the broader academic community. Prof. Siddiqui’s key achievements lie in his ability to merge theoretical understanding with experimental insights, producing outcomes that are both scientifically rigorous and practically applicable. His research addresses pressing global issues such as sustainable resource utilization, energy optimization, and industrial waste reduction—areas crucial to achieving long-term environmental balance and technological innovation. With an expanding portfolio of interdisciplinary collaborations and an evolving research focus on advanced materials and manufacturing processes, Prof. Siddiqui continues to contribute significantly to scientific progress and societal development. His work not only enhances academic knowledge but also offers tangible solutions that align with industry needs and global sustainability goals, reinforcing his position as an emerging leader in engineering research and innovation.

Profiles: Scopus | Google Scholar

Featured Publications

Islam, M. M. R. M. S., Lucky, N. S., Islam, M. R., Ahad, A., & Das, B. R. (2004). Haematological parameters of Fayoumi, Assil and local chickens reared in Sylhet region in Bangladesh. International Journal of Poultry Science, 3(2), 144–147.

Islam, S. M. S., Talukder, A., Awal, M. A., Siddiqui, M. M. U., Ahamad, M. M., … (et al.) (2022). Machine learning approaches for predicting hypertension and its associated factors using population-level data from three South Asian countries. Frontiers in Cardiovascular Medicine, 9, 839379.

Siddiqui, M. S. I., Khan, M. Z. I., Moonmoon, S., Islam, M. N., & Jahan, M. R. (2008). Macro-anatomy of the bones of the forelimb of Black Bengal goat (Capra hircus). Bangladesh Journal of Veterinary Medicine, 6(1), 59–66.

Badruzzaman, A. T. M., Siddiqui, M. S. I., Faruk, M. O., Lucky, N. S., Zinnah, M. A., … (et al.) (2015). Prevalence of infectious and non-infectious diseases in cattle population in Chittagong district of Bangladesh. International Journal of Biological Research, 3(1), 1–4.

Islam, K. N., Khan, M. Z. I., Siddiqui, M. S. I., Islam, M. R., Lucky, N. S., Hossain, M. K., … (et al.) (2004). The anatomical studies of the kidneys of Rhode Island Red (RIR) and White Leghorn (WLH) chicken during their postnatal stages of growth and development. International Journal of Poultry Science, 3(5), 369–372.

Rena Conti | Econometrics and Finance | Best Researcher Award

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Prof. Rena Conti | Econometrics and Finance | Best Researcher Award

Questrom School of Business, Boston University | United States

Professor Rena M. Conti is a distinguished scholar in health economics and public policy, renowned for her influential contributions to the economics of healthcare markets, pharmaceutical innovation, and drug pricing regulation. With 156 scholarly publications, over 4,890 citations, and an h-index of 31, she has established herself as a global authority in the intersection of healthcare policy, economic analysis, and market dynamics. Her research focuses on understanding the mechanisms driving biopharmaceutical pricing, access to essential medicines, and the sustainability of healthcare systems. Professor Conti’s work has been featured in leading international journals, including JAMA, Health Affairs, and Nature Biotechnology, where her empirical analyses have informed both academic discourse and practical policymaking. Her collaborations extend across academia, government, and industry, where she has worked with public health agencies, pharmaceutical firms, and think tanks to design evidence-based policies that promote innovation while ensuring patient affordability. A key aspect of her impact lies in her ability to bridge the gap between economic modeling and real-world policy implementation, offering pragmatic solutions for optimizing market efficiency and health outcomes. She has also been actively involved in mentoring young researchers and contributing to interdisciplinary initiatives that explore the ethical, economic, and regulatory dimensions of healthcare innovation. Her leadership in shaping policy frameworks related to biosimilars, value-based pricing, and healthcare equity has positioned her as a leading voice in advancing sustainable global health systems. Beyond academia, her work has contributed to public debates on balancing innovation incentives with affordability, influencing policymakers and industry leaders worldwide. Through her rigorous scholarship, collaborative outlook, and commitment to public health, Professor Conti continues to play a pivotal role in transforming the global conversation on healthcare economics, ensuring that economic research serves both scientific advancement and social equity.

Profile: Scopus | ORCID | Google Scholar

Featured Publications

Qato, D. M., Alexander, G. C., Conti, R. M., Johnson, M., Schumm, P., & Lindau, S. T. (2008). Use of prescription and over-the-counter medications and dietary supplements among older adults in the United States. JAMA, 300(24), 2867–2878.

Epstein, A. M., Ayanian, J. Z., Keogh, J. H., Noonan, S. J., Armistead, N., Cleary, P. D., … (et al.) (2000). Racial disparities in access to renal transplantation—clinically appropriate or due to underuse or overuse? New England Journal of Medicine, 343(21), 1537–1544.

Howard, D. H., Bach, P. B., Berndt, E. R., & Conti, R. M. (2015). Pricing in the market for anticancer drugs. Journal of Economic Perspectives, 29(1), 139–162.

Dorsey, E. R., Rabbani, A., Gallagher, S. A., Conti, R. M., & Alexander, G. C. (2010). Impact of FDA black box advisory on antipsychotic medication use. Archives of Internal Medicine, 170(1), 96–103.

Dusetzina, S. B., Higashi, A. S., Dorsey, E. R., Conti, R., Huskamp, H. A., Zhu, S., … (et al.) (2012). Impact of FDA drug risk communications on health care utilization and health behaviors: A systematic review. Medical Care, 50(6), 466–478.

Lalhmingsangi Famhawite | Mathematics | Best Researcher Award

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Ms. Lalhmingsangi Famhawite | Mathematics | Best Researcher Award

University of Delhi | India

Ms. Lalhmingsangi Famhawite is a dedicated Research Scholar at the Department of Mathematics, University of Delhi, whose research lies at the intersection of Computational Fluid Dynamics (CFD) and Biomedical Engineering. Her academic and scientific pursuits focus on the numerical simulation of bioheat transfer processes in cryosurgical treatment of tumor tissues, applying advanced mathematical models to real-world biomedical challenges. With 4 peer-reviewed publications, 9 citations, and an h-index of 1, her scholarly work demonstrates growing influence in the field of computational biothermal modeling and mathematical applications in health technology. Her research contributions explore the complex interactions between thermal diffusion, vascular networks, and tissue damage during cryoablation procedures—a minimally invasive technique for cancer therapy. By combining finite element analysis, bioheat transfer modeling, and numerical simulation, she has developed innovative approaches to simulate and optimize cryosurgical processes, improving precision and safety in treatment outcomes. Ms. Famhawite’s work includes creating 2D and 3D vascularized liver tumor models, investigating coupled heat-mass transfer phenomena, and evaluating biomechanical effects of tissue freezing, which have significant implications for advancing computational medicine and patient-specific treatment design. Her technical expertise spans COMSOL Multiphysics, MATLAB, and finite element methods, enabling her to conduct high-fidelity simulations that align closely with experimental and clinical observations. She has presented her findings at prestigious international platforms, including the Indian Society of Theoretical and Applied Mechanics (ISTAM) and the International Conference on Recent Trends in Mathematics (ICRTM), reflecting her active engagement with the global research community.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

Tanwar, S., Famhawite, L., & Verma, P. R. (2023). Numerical simulation of bio-heat transfer for cryoablation of regularly shaped tumours in liver tissue using multiprobes. Journal of Thermal Biology, 113, 103531.

Famhawite, L., Tanwar, S., & Verma, P. R. (2024). PERSPECTIVE: Cryosurgery process applications: A mathematical review. CryoLetters, 45(5), 269–278.

Famhawite, L., Tanwar, S., & Verma, P. R. (2025). Numerical simulations to analyze the impact of vascular network complexity over cryosurgical treatment process of two-dimensional liver tumor tissue. International Journal for Computational Methods in Engineering Science and Mechanics.

Tanwar, S., Famhawite, L., & Verma, P. R. (2026). Bioheat transfer simulations of cryoablation and their comparison with different optimization techniques for patient-specific segmented liver tumor tissue. International Journal of Thermal Sciences, 220, 110301.