Ning Zhang | Molecular biotechnology | Best Researcher Award

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Assoc. Prof. Dr. Ning Zhang | Molecular Biotechnology | Best Researcher Award

Associate Professor at Liaocheng university | China

Assoc. Prof. Dr. Ning Zhang, a distinguished neuroscientist of Mongolian ethnicity, is a member of the Communist Party and currently focuses her research on neuroinflammatory immunity and myelin regeneration. She earned her doctoral degree in Neuroscience from Tierärztliche Hochschule Hannover, Germany, in November 2015. Dr. Zhang’s research primarily investigates the regulatory mechanisms of neuroinflammation and immune responses in neurodegenerative diseases, emphasizing the processes of remyelination and neuronal repair. Her studies further explore the intricate interactions among glial cells in the central nervous system during both development and disease progression. She is also deeply engaged in identifying novel therapeutic targets for neurodegenerative conditions and developing bioactive interventions aimed at mitigating neuronal damage. Dr. Zhang has made substantial contributions to the field through her publications and scientific discoveries, advancing understanding of cellular and molecular mechanisms underlying neural repair. Her work bridges fundamental neuroscience with translational approaches to improve clinical outcomes in neurodegenerative disorders. According to her Scopus profile, Dr. Zhang has authored 62 scientific documents, which have collectively garnered 868 citations across 667 publications, reflecting a significant impact in the global neuroscience community. She maintains an h-index of 19, demonstrating both the depth and influence of her research contributions in neuroinflammatory and regenerative neuroscience.

Profile: Scopus

Featured Publications

Zhang, N., et al. (2025). Ketogenic diet attenuates microglia-mediated neuroinflammation by inhibiting NLRP3 inflammasome activation via HDAC3 inhibition to activate mitophagy in experimental autoimmune encephalomyelitis. Food & Function. 3 citations

Zhang, N., et al. (2025). Exogenous ketogenic supplements can mitigate the susceptibility to Alzheimer’s disease induced by chronic sleep deprivation: Emerging role of Sirt1 in ferroptosis. Food Science and Human Wellness. 0 citations

Zhang, N., et al. (2025). Cetirizine platinum(IV) complexes with antihistamine properties inhibit tumor metastasis by suppressing angiogenesis and boosting immunity. Journal of Inorganic Biochemistry. 3 citations

Zhang, N., et al. (2024). Dynamic effects of ketogenic diet on autophagy and cell cycle in a mouse model of CT26+ colon cancer. Pakistan Journal of Zoology. 0 citations

Zhang, N., et al. (2024). Phase separation investigation of Axitinib in supersaturated solution. Crystals. 0 citations

Kwangsuk Lim | Biopharmaceuticals | Best Researcher Award

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Prof. Kwangsuk Lim | Biopharmaceuticals | Best Researcher Award

Asoociate Professor at Kangwon National University | South Korea

Prof. Kwang Suk Lim, Ph.D., is an accomplished Associate Professor in the Department of Biotechnology and Bioengineering at Kangwon National University, South Korea, whose research spans biotechnology, nanomedicine, and bioengineering with a strong focus on cancer immunotherapy, targeted drug delivery, and biopolymer applications. His work emphasizes the development of recombinant fusion proteins, nanocomplexes, and chimeric antigen receptor (CAR)-based strategies for enhancing immune-cell therapeutics. He has also contributed to advancing chemo-immunotherapy platforms, surface-engineered natural killer (NK) cells, and the application of metal–organic frameworks for microplastic degradation and environmental protection. Dr. Lim’s interdisciplinary research has been published in high-impact journals such as Pharmaceutics, Biomedicine & Pharmacotherapy, and Environmental Pollution, reflecting his leadership in translational biomedical innovation. His scientific record includes 25 Scopus-indexed publications with 260 citations by 251 documents and an h-index of 9, alongside multiple Korean and international patents in biomaterials, recombinant protein therapeutics, and drug delivery technologies. He has been recognized with several honors, including the Kangwon National University Teaching Award and the Bioengineering Researcher Award, underscoring his excellence in both academic and research achievements.

Profile: Scopus | ORCID

Featured Publications

Lim, S. Y., Kim, Y., Han, S., Kim, H.-O., Ha, S.-J., Park, J.-A., Yun, J., Chae, S., Won, Y.-W., & Lim, K. S. (2025). CliCAR: A non-genetic CAR engineering strategy to empower NK cells for targeted cancer immunotherapy. Biomedicine & Pharmacotherapy, 193, 118691.

Kim, Y., Kwak, J., Lim, M., Lim, S. Y., Chae, S., Ha, S.-J., Won, Y.-W., Kim, H.-O., & Lim, K. S. (2025). Advances in PCL, PLA, and PLGA-based technologies for anticancer drug delivery. Pharmaceutics, 17, 1354.

Lim, S. Y., Kim, Y., Kim, H., Han, S., Yun, J., Kim, H.-O., Ha, S.-J., Chae, S., Won, Y.-W., & Lim, K. S. (2025). Surface engineering of natural killer cells with lipid-based antibody capture platform for targeted chemoimmunotherapy. Pharmaceutics, 17(10), 1285.

Kim, Y., Lim, S. Y., Kim, H.-O., Ha, S.-J., Park, J.-A., Won, Y.-W., Chae, S., & Lim, K. S. (2025). Combination strategies with HSP90 inhibitors in cancer therapy: Mechanisms, challenges, and future perspectives. Pharmaceuticals, 18(8), 1083.

Lim, S. Y., Han, S., Kim, Y., Kim, H., Kim, Y., Park, J.-A., Yun, J., Yong, S.-B., Won, Y.-W., & Lim, K. S. (2025). Advanced breast cancer immunotherapy: Surface modification of NK cells for embedding antibody-drug conjugates. Biomedicine & Pharmacotherapy, 189, 118245.

Farzaneh Bayat | Nanobiotechnology | Best Researcher Award

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Assoc. Prof. Dr. Farzaneh Bayat | Nanobiotechnology | Best Researcher Award

Associate Professor at Azarbaijan Shahid Madani University | Iran

Assoc. Prof. Dr. Farzaneh Bayat is a distinguished physicist and materials scientist whose research integrates photonic crystals, plasmonic nanostructures, and biosensor technologies for advanced applications in optics, renewable energy, and biomedical detection. Her scientific pursuits encompass the design and fabrication of photonic and inverse opal structures, localized surface plasmon resonance (LSPR)-based biosensors, nanosphere lithography, and nanophotonic materials for enhanced light manipulation and energy harvesting. Dr. Bayat’s work on 1D and 2D photonic crystals with gradient refractive index materials has significantly advanced the understanding of optical filtering, beam shaping, and real-time biosensing. She has also contributed to the development of nanocomposite photocatalysts, perovskite materials, and solar energy devices, emphasizing sustainable and efficient nanostructured systems. Her recent studies address Fano-like resonances, graphene-assisted metasurfaces, and plasmonic enhancement in quantum dot-sensitized solar cells, bridging the fields of nanophotonics and renewable energy.With 35 publications indexed in Scopus, Dr. Bayat has demonstrated consistent research productivity and interdisciplinary innovation. Her works are published in leading journals such as IEEE Sensors Journal, Scientific Reports, Solar Energy, Journal of Alloys and Compounds, and Small. Her Scopus profile reports 241 citations from 203 documents, reflecting her growing impact in the fields of biophotonics, nanomaterials, and optical engineering, and she holds an h-index of 10. Dr. Bayat’s research continues to inspire advancements in optical sensor design, nanophotonics, and sustainable energy technologies.

Profile: Scopus | ORCID | Google Scholar

Featured Publications

Pashaei Adl, H., Bayat, F., Ghorani, N., Ahmadi-Kandjani, S., & Tajalli, H. (2017). A defective 1-D photonic crystal-based chemical sensor in total internal reflection geometry. IEEE Sensors Journal, 17(13), 4046–4051

Montesdeoca, D., Bayat, F., Espinha, A., Blanco, Á., Pecharromán, C., & López, C. (2016). Monodisperse silica spheres ensembles with tailored optical resonances in the visible. Particle & Particle Systems Characterization.

Bayat, F., Ahmadi-Kandjani, S., & Tajalli, H. (2016). Designing real-time biosensors and chemical sensors based on defective 1-D photonic crystals. IEEE Photonics Technology Letters, 28(17).

Jamshidi-Ghaleh, K., Bayat, F., Phirouznia, A., & Soleimani, S. (2015). Petal-shaped optical vortice generation by a graded-index defective 1DPC nanostructure under irradiation of a Gaussian beam. Journal of Optics, 17(3), 035104.

Jamshidi-Ghaleh, K., Bayat, F. (2014). Generating frequency dependent twisted beam shapes using 1DPC nanostructure with graded-index defect layer. Optics Letters, 39(13), 3802–3805.

Nikita Singh | Algal Biotechnology | Best Researcher Award

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Ms. Nikita Singh | Algal Biotechnology | Best Researcher Award

Durban University of Technology | South Africa

Ms. Nikita Singh is an emerging researcher in Chemical and Bioprocess Engineering whose work advances sustainable biotechnology and green engineering through innovative biomass valorisation, algal biotechnology, and renewable energy systems. Her pioneering research on the co-cultivation of Scenedesmus sp. and duckweed integrates biofuel production with wastewater remediation, offering a scalable solution that enhances lipid yield, biomass productivity, and environmental sustainability. She has published in reputed Scopus-indexed journals such as Chemical Engineering Transactions and Results in Engineering (Elsevier) and presented her findings at leading international conferences including CHISA and GCCE. Her studies employ advanced statistical design methods such as Box–Behnken and RSM to optimise process parameters for algal growth and biofuel efficiency. Beyond her core research, she has contributed to the scientific community through a book chapter on biochar production and multiple papers addressing waste valorisation and sustainable process design. Her work aligns strongly with global goals on environmental sustainability and circular bioeconomy, demonstrating both technical expertise and research innovation. According to her Scopus profile, she has 1 citation, 2 documents, and an h-index of 1 (h-index view disabled in preview mode).

Profile: Scopus

Featured Publications

Singh, N., Chetty, M., & Rathilal, S. (2025). Hydrocarbon and lipid extraction from Scenedesmus sp. and duckweed co-cultures cultivated in sewage wastewater using bubble column and airlift reactors. Chemical Engineering Transactions.

Singh, N., Chetty, M., & Rathilal, S. (2025). Optimization of bubble column hydrodynamics for algal-duckweed co-cultivation. Results in Engineering. (Accepted with minor comments)

Singh, N., & Chetty, M. (2023). Minimisation of waste via the valorisation of spent coffee grounds into high-value products. Chemical Engineering Transactions, 106, 427–432. ISSN 2283–9216.

Armah, E. K., Chetty, M., Adedeji, J. A., Estrice, D. E., Mutsvene, B., Singh, N., & Tshemese, Z. (2022). Biochar: Production, application and the future. In Biochar: Production, Application and the Future. IntechOpen.

Singh, N., Chetty, M., & Deenadayalu, N. (2022, August). Extraction of caffeine from spent coffee grounds using ionic liquids. Paper presented at CHISA 2022 Conference on Chemical Engineering Technology, Prague.

Serena Barile | Environmental Biotechnology | Best Researcher Award

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Dr. Serena Barile | Environmental Biotechnology | Best Researcher Award

Postdoctoral research fellow at University of Bari Aldo Moro | Italy

Dr. Serena Barile is a dedicated researcher whose work reflects a growing influence in her field through innovative and analytical scientific contributions. Her research interests span multidisciplinary areas, integrating experimental and theoretical perspectives to address emerging challenges in science and technology. With 7 citations by 7 documents, 5 publications, and an h-index of 2 according to her Scopus profile, Barile’s academic output demonstrates consistent quality and scholarly engagement. Her studies exhibit methodological precision, conceptual depth, and a strong commitment to advancing research with practical and societal relevance. She has contributed to the development of frameworks and insights that enhance understanding in her domain, showcasing an ability to link fundamental research with applied solutions. Barile’s work is marked by critical thinking, originality, and collaboration, reflecting her commitment to continuous learning and innovation. Her publications reveal a progressive research journey that aligns with global scientific priorities and fosters interdisciplinary collaboration. Through her dedication to excellence and knowledge dissemination, Serena Barile exemplifies the qualities of a promising and impactful researcher, making her a suitable candidate for recognition under the Best Researcher Award category for her emerging academic achievements and contribution to scientific advancement.

Profile: Scopus | ORCID

Featured Publications

Cafferati Beltrame, L., Sgobba, M. N., Laera, L., Scaglione, V., Todisco, S., Barile, S., Francavilla, A. L., De Luca, D. I., Montaruli, M., Porcelli, V., et al. (2025). Combined in silico/in vitro approaches for identifying modulators of the activity of the p.Tyr110Cys Carnitine O-Acetyltransferase (CRAT) variant associated to an early onset case of Leigh syndrome.

Porcelli, V., Barile, S., Capobianco, L., Barile, S. N., Gorgoglione, R., Fiermonte, G., Monti, B., Lasorsa, F. M., & Palmieri, L. (2024). The mitochondrial aspartate/glutamate carrier does not transport GABA.

Parrella, P., Barbano, R., Jonas, K., Fontana, A., Barile, S., Rendina, M., lo Mele, A., Prencipe, G., Ciuffreda, L., Morritti, M. G., et al. (2024). Tumor suppressor miR-27a-5p and its significance for breast cancer.

Castellaneta, A., Losito, I., Porcelli, V., Barile, S., Maresca, A., Del Dotto, V., Losacco, V., Guadalupi, L. S., Calvano, C. D., Chan, D. C., et al. (2024). Lipidomics reveals the reshaping of the mitochondrial phospholipid profile in cells lacking OPA1 and mitofusins.

Castellaneta, A., Porcelli, V., Losito, I., Barile, S., Maresca, A., Del Dotto, V., Guadalupi, L. S., Calvano, C. D., Carelli, V., & Palmieri, L. (2023). Methyl carbamates of phosphatidylethanolamines and phosphatidylserines reveal bacterial contamination in mitochondrial lipid extracts of mouse embryonic fibroblasts.

Eugenia Messina | Industrial Biotechnology | Best Researcher Award

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Dr. Eugenia Messina | Industrial Biotechnology | Best Researcher Award

Research Fellow at University of Bari Aldo Moro | Italy

Dr. Eugenia Messina is a distinguished researcher in biotechnology and microbial metabolic engineering, currently serving as a Research Fellow at the Department of Biosciences, Biotechnologies, and Environment, University of Bari “Aldo Moro,” Italy. Her research focuses on the metabolic and genetic engineering of Yarrowia lipolytica and other non-conventional yeasts for the sustainable synthesis of industrially relevant compounds and the bioconversion of plastic-derived monomers. She has made significant contributions to the development of microbial platforms for plastic upcycling, biochemical characterization of mitochondrial transporters, and metabolic pathways related to fatty acid and isocitric acid production. Messina has authored 8 scientific documents indexed in Scopus, which have collectively received 110 citations from 108 documents, reflecting an h-index of 6-demonstrating the growing influence and recognition of her research. Her publications include papers in Bioresource Technology, Pharmaceutics, Microbial Cell Factories, Frontiers in Microbiology, Metabolic Engineering, FEBS Letters, and Biochemical Journal, along with a European patent on the metabolic engineering of Yarrowia lipolytica for isocitric acid production. She has been recognized with the HERITAGE 2024 Award from the Biotechnology Group of the Italian Society of Biochemistry and Molecular Biology (SIB), as well as multiple travel grants and presentation awards. Through interdisciplinary research and innovative approaches in bioengineering, Messina’s work contributes to advancing circular bioeconomy strategies, microbial biotechnology, and sustainable bioprocess development.

Profile: Scopus | ORCID

Featured Publications

Brito, D. S., Agrimi, G., Charton, L., Brilhaus, D., Bitetto, M. G., Lana-Costa, J., Messina, E., Nascimento, C. P., Feitosa-Araújo, E., Pires, M. V., Pérez-Díaz, J. L., Obata, T., Porcelli, V., Palmieri, L., Araújo, W. L., Weber, A. P. M., Linka, N., Fernie, A. R., Palmieri, F., & Nunes-Nesi, A. (2020). Biochemical and functional characterization of a mitochondrial citrate carrier in Arabidopsis thaliana. Biochemical Journal, 477(9), 1759–1777.

Yuzbasheva, E. Y., Scarcia, P., Yuzbashev, T. V., Messina, E., Kosikhina, I. M., Palmieri, L., Shutov, A. V., Taratynova, M. O., Amaro, R. L., Palmieri, F., Sineoky, S. P., & Agrimi, G. (2021). Engineering Yarrowia lipolytica for the selective and high-level production of isocitric acid through manipulation of mitochondrial dicarboxylate-tricarboxylate carriers. Metabolic Engineering, 65, 156–166.

Messina, E., de Souza, C. P., Cappella, C., Barile, S. N., Scarcia, P., Pisano, I., Palmieri, L., Nicaud, J. M., & Agrimi, G. (2023). Genetic inactivation of the carnitine/acetyl-carnitine mitochondrial carrier of Yarrowia lipolytica leads to enhanced odd-chain fatty acid production. Microbial Cell Factories, 22(1), 128.

Castellani, S., Iaconisi, G. N., Tripaldi, F., Porcelli, V., Trapani, A., Messina, E., Guerra, L., Di Franco, C., Maruccio, G., Monteduro, A. G., Corbo, F., Di Gioia, S., Trapani, G., & Conese, M. (2024). Dopamine and citicoline co-loaded solid lipid nanoparticles as multifunctional nanomedicines for Parkinson’s disease treatment by intranasal administration. Pharmaceutics, 16(8), 1048.

Messina, E., Zbigniew, L., Barile, S., Moroz, P., Scarcia, P., Palmieri, L., Pisano, I., & Agrimi, G. (2025). Acetate co-feeding increases ethylene glycol assimilation and glycolic acid production in Yarrowia lipolytica. Bioresource Technology. (Accepted October 2025).

Honghao Zhao | Agricultural Biotechnology | Best Researcher Award

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Dr. Honghao Zhao | Agricultural Biotechnology | Best Researcher Award

Doctor at College of fisheries | Tianjin Agricltural University | China

Dr. Honghao Zhao is a distinguished researcher at Tianjin Agricultural University specializing in sustainable aquaculture, fish nutrition, and aquatic physiology. Her research focuses on developing eco-friendly feed strategies using alternative protein sources such as defatted black soldier fly larvae and functional additives including bile acids and Chinese herbal compounds to enhance fish growth, health, and flesh quality. By integrating multi-omics techniques such as metabolomics and transcriptomics, she elucidates the molecular and physiological mechanisms underlying nutrient utilization and muscle development in aquatic species. As Principal Investigator, Dr. Zhao has successfully led multiple research projects funded by national and provincial programs, contributing significantly to the advancement of aquaculture nutrition science. Her prolific scholarly output includes numerous publications in high-impact international journals like Applied Food Research, Aquaculture, Frontiers in Physiology, and GigaScience, with her studies widely cited for their innovation and relevance to sustainable aquaculture practices. Her research excellence is further reflected in her Scopus record, with 566 citations, an h-index of 10, and a growing influence across global aquaculture and biotechnology communities. Through her interdisciplinary approach and applied research outcomes, Dr. Zhao continues to bridge scientific discovery and industry application, promoting environmentally sustainable and nutritionally optimized aquaculture systems that support global food security and resource conservation.

Profile: ORCID | Google Scholar

Featured Publications:

Zhao, H.*, Fu, Y., Zheng, X. J., Sun, X. L., Shen, J. W., & Fang, Z. Z. (2025). Gut microbiota mediates the improved growth, flesh quality and intestinal health of largemouth bass (Micropterus salmoides) fed defatted Hermetia illucens larvae meal. Applied Food Research, 101456.

Zhao, H.*, Fu, Y., Zheng, X. J., Huang, X. R., & Yan, K. (2025). The improvement of adding bile acid to high-level black soldier fly larvae meal-based diet on quality of largemouth bass (Micropterus salmoides). Aquaculture Nutrition, 2218372.

Duan, Y. N., Zhao, H., Qin, C. J., Ma, L., Bi, X. D., Song, T., & Sun, X. L. (2024). Astragalus polysaccharides, cinnamaldehyde and their complexes affected growth, physicochemical parameters, histomorphology and flesh quality of largemouth bass (Micropterus salmoides). Aquaculture Reports, 35, 101989.

Zhao, H., Chong, J., & Li, D. P. (2023). Integrated multiple-omics reveals the regulatory mechanism underlying the effects of artificial feed and grass feeding on growth and muscle quality of grass carp (Ctenopharyngodon idellus). Aquaculture, 562, 738808.

Li, X. T., Qin, C. J., Fang, Z. Z., Sun, X. L., Shi, H. Y., Wang, Q. K., & Zhao, H.* (2022). Replacing dietary fish meal with defatted black soldier fly (Hermetia illucens) larvae meal affected growth, digestive physiology and muscle quality of tongue sole (Cynoglossus semilaevis). Frontiers in Physiology, 13, 855957.

Habib Hamidinezhad | Nanoscience | Best Researcher Award

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Assoc. Prof. Dr. Habib Hamidinezhad | Nanoscience | Best Researcher Award

Associate professor at University of Mazandaran | Iran

Assoc. Prof. Dr. Habib Hamidinezhad, born on 30 March 1975 in Larim, Jouybar, Mazandaran, Iran, is a distinguished Iranian physicist specializing in nanophysics and nanomaterials. He obtained his B.Sc. in Applied Physics (Solid State) from Shahid Beheshti University, Tehran, his M.Sc. in Physics (Solid State and Electronics) from the University of Tabriz with a thesis on Bi-based high-(T_c) superconductors, and his Ph.D. in Nanophysics from the Ibnu Sina Institute for Fundamental Science Studies, Universiti Teknologi Malaysia (UTM), focusing on “Structural Characterization of Silicon Nanowires Grown by a 150 MHz Very High Frequency Plasma Enhanced Chemical Vapor Deposition.” He subsequently held a visiting researcher role and a postdoctoral fellowship at UTM’s Institute of High Voltage and High Current before joining the Department of Physics, Faculty of Basic Sciences, University of Mazandaran, Iran. His research interests encompass nanostructures, nanowires, nanofibers, thin films, photocatalysis, bionanoscience, semiconductors, and drug-delivery systems. Dr Hamidinezhad has authored 44 peer-reviewed publications in international journals indexed in Scopus, collectively cited 357 times across 326 documents, with an h-index of 11. His recent works include studies on TiO₂/ZnO composite nanofibers for photocatalytic applications and hybrid perovskite materials for solar cells. Recognized for his scholarly excellence, he received the Iran National Elite Foundation’s “Dr Kazemi Ashtiani Award for Young Assistant Professors” (2017) and the “Best Student Award” from UTM (2012). He continues to contribute significantly to nanoscience through his teaching, mentorship, and research innovations at the University of Mazandaran.

Profile: Scopus | Google Scholar

Featured Publications

Tabari, F. H., & Hamidinezhad, H. (2025). Effective photodegradation of organic pollutants and antibacterial activity by TiO₂/ZnO composite nanofibers as a direct Z-scheme heterojunction photocatalyst. Journal of Water Process Engineering, 77, 108562.

Hassan, A. K., Hamidinezhad, H., & Al-Bermany, E. (2025). Effectiveness of graphene-polymer nanocomposites on thermo-mechanical and cytotoxicity behavior for dental fillings applications. Iranian Polymer Journal, 1, 1–15.

Afra, F. G., Hamidinezhad, H., & Mozafari, H. (2025). Antibacterial activity of two-dimensional MoS₂ nanostructures: Effects of reaction time and temperature on morphology. Materials Chemistry and Physics, 343, 130945.

Narm, T. S., Hamidinezhad, H., Sabouri, Z., & Darroudi, M. (2025). Photodegradation of tetracycline antibiotic and organic dyes using green synthesized Ag-doped ZnO/CuO nanocomposite with Sclerorhachis leptoclada extract. Chemistry Africa, 1, 1–11.

Dakhil, T., Hamidinezhad, H., & Baron, A. S. (2025). Fabrication and characterization of a hybrid organic-inorganic perovskite material and applications in solar cells. Optical Materials, 160, 116708.

Min Li | Radiotherapy | Biotechnology Scientist Award

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Dr. Min Li | Radiotherapy | Biotechnology Scientist Award

Director at 960th Hospital of PLA | China

Dr. Min Li, M.D., is a distinguished medical imaging expert specializing in coronary artery disease, nuclear medicine, and interventional radiology. He currently serves as the Deputy Chief Physician and Director of the Department of Nuclear Medicine at the 960 Hospital of the People’s Liberation Army in Jinan, Shandong, China. Dr. Li obtained his Bachelor’s degree from the First Military Medical University, Guangzhou, and his Master’s degree from the Second Military Medical University, Shanghai. His professional career spans over two decades, during which he has contributed significantly to diagnostic imaging innovations and interventional treatment strategies. Dr. Li has authored and co-authored numerous high-impact publications in leading journals such as Radiology, European Radiology, JACC Cardiovascular Imaging, and ACS Applied Materials & Interfaces. His work encompasses meta-analyses, diagnostic imaging studies, and novel therapeutic interventions, advancing precision in cardiovascular diagnostics and imaging protocols. Notable studies include analyses on myocardial perfusion imaging accuracy, dual-source CT coronary angiography, and interventional therapies for osteoporotic fractures and arterial injuries. His research contributions demonstrate a consistent focus on improving imaging accuracy, radiation safety, and patient outcomes.

Profile: Orcid

Featured Publications

Li, M. (2020). Electrosprayed soft capsules of millimeter size for specifically delivering fish oil/nutrients to the stomach and intestines. ACS Applied Materials & Interfaces.

Li, M. (2020). Percutaneous vertebral augmentation using drill rotation for osteoporotic vertebral compression fractures with intravertebral vacuum cleft. Skeletal Radiology.

Li, M. (2019). Diagnostic performance of MRI for detecting intraplaque hemorrhage in the carotid arteries: A meta-analysis. European Radiology.

Li, M. (2014). Diagnostic accuracy of myocardial magnetic resonance perfusion to diagnose ischemic stenosis with fractional flow reserve as reference: Systematic review and meta-analysis. JACC: Cardiovascular Imaging.

Li, M. (2012). Prognostic value of coronary CT angiography for cardiac events. Radiology.

Yu Fang | Molecular biotechnology | Best Researcher Award

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Prof. Dr. Yu Fang | Molecular biotechnology | Best Researcher Award

Full Professor at Fujian Institute of Research on the Structure of Matter | China

Dr. Yu Fang is a distinguished chemist whose research lies at the interface of materials chemistry and supramolecular science, particularly in the design and synthesis of Porous Coordination Cages (PCCs) and Metal–Organic Frameworks (MOFs). His work focuses on developing advanced porous materials for applications in catalysis, gas storage, molecular recognition, and energy conversion. Dr. Fang has made significant contributions to understanding host–guest chemistry, self-assembly mechanisms, and structure–property relationships in coordination materials. His innovative research has been widely recognized in leading journals such as Nature Communications, Angewandte Chemie International Edition, Journal of the American Chemical Society, and Chemical Society Reviews. Through collaborative projects and pioneering insights, Dr. Fang’s studies have bridged molecular design and functional materials engineering, influencing both academic and industrial research in advanced materials. He has published extensively, contributing to the development of next-generation coordination architectures with tailored porosity and dynamic behavior for chemical and environmental applications. With 7132 citations and an h-index of 26 according to his Scopus profile, Dr. Fang’s scientific impact reflects both productivity and quality, positioning him as a leading figure in coordination chemistry and materials innovation.

Profile: Google Scholar | Orcid

Featured Publications

Liang, Y., Yang, X., Wang, X., Guan, Z.-J., Xing, H., & Fang, Y. (2023). Nature Communications, 14, 5223.

Su, Z., Liu, K.-K., Xu, Y.-Q., Yan, B., Wang, S., Guan, Z.-J., Zou, Y., & Fang, Y. (2024). Angewandte Chemie International Edition, 64(9), e202420945.

Peng, Y., Yuan, L., Liu, K.-K., Jin, S., & Fang, Y. (2024). Angewandte Chemie International Edition, 64(12), e202423055.

Liang, Y., Xie, G., Liu, K.-K., Jin, M., Chen, Y., Yang, X., Guan, Z.-J., Xing, H., & Fang, Y. (2024). Angewandte Chemie International Edition, 64(1), e202416884.

He, H.-H., Yuan, J.-P., Cai, P.-Y., Wang, K.-Y., Feng, L., Kirchon, A., Li, J., Zhang, L.-L., Zhou, H.-C., & Fang, Y. (2023). Journal of the American Chemical Society, 145, 17164–17175.

Fang, Y., Powell, J., Li, E., Wang, Q., Perry, Z., Kirchon, A., Yang, X., Xiao, Z., Zhu, C., Zhang, L., Huang, F., & Zhou, H.-C. (2019). Chemical Society Reviews, 48(17), 4707–4730.

Liang, Y., Li, E., Wang, K., Guan, Z.-J., He, H.-H., Zhang, L.-L., Zhou, H.-C., Huang, F., & Fang, Y. (2022). Chemical Society Reviews, 51, 8378–8405.