Author: Shen Awards

Ruixian Song | Econometrics and Finance | Research Excellence Award

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Dr. Ruixian Song | Econometrics and Finance | Research Excellence Award

Guangzhou University | China

Ruixian Song is a doctoral researcher in Statistics with a scholarly focus on quantitative finance, green financial systems, and digital innovation supporting sustainable rural and ecological development. Her academic training spans financial engineering and applied finance, progressing with strong research performance, competitive rankings, and multiple distinctions, including the prestigious National Outstanding Master’s Thesis Award in Finance—a recognition granted to a small number of high-impact theses nationwide. Her research contributions include peer-reviewed articles and a master’s dissertation addressing financial service innovation, agricultural financing mechanisms, rural revitalization policies, and insurance models supporting green development. These works have informed discussions in academic, government, and applied finance settings. She has delivered research presentations at national academic forums such as the Lingnan Academic Forum on Digital Empowerment, the Chinese Macroeconomy Symposium, and the Young Economist Society Forum. In addition to academic research, she has gained professional experience in research institutions and the financial sector, contributing to provincial-level policy studies, major research programs, and applied financial analysis. Her work has included project proposal development, policy evaluations, and sectoral research on industrial finance and sustainable investment, some of which has been adopted in institutional and governmental analytical reports. Ruixian’s methodological expertise includes econometric modeling, quantitative analysis, and computational statistics, with proficiency in Stata, Python, and MATLAB. She also holds multiple professional certifications related to securities analysis and financial practice. Her research vision is centered on advancing evidence-based financial innovation that aligns environmental sustainability, digital transformation, and inclusive development. Through interdisciplinary scholarship and policy-oriented inquiry, she aims to support the evolution of green finance frameworks and contribute to the broader transformation toward resilient and equitable economic systems.

Profiles: Scopus

Featured Publications

  1. Liu, J., Song, R., & Fu, Y. (2025). Digital finance empowering corporate ESG performance: The dual-engine role of digital transformation and green technological innovation. Sustainability, 17(23), Article 10743.

Huilei Yu | Biocatalysis | Research Excellence Award

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Prof. Huilei Yu | Biocatalysis | Research Excellence Award

East China University of Science and Technology | China

Prof. Huilei Yu is a leading scholar in biocatalysis and bioprocess engineering and currently serves as Professor at the State Key Laboratory of Bioreactor Engineering, East China University of Science and Technology (ECUST), Shanghai, China. She earned her Ph.D. in Biochemical Engineering from ECUST in 2008 under the mentorship of Prof. Jianhe Xu and rapidly advanced in her academic career, being appointed Associate Professor in 2010 and promoted to full Professor in 2017. From 2013–2014, she was a Visiting Professor at the Massachusetts Institute of Technology (MIT), where she expanded her work on metabolic engineering and computational enzyme design. Prof. Yu’s research is positioned at the intersection of enzyme engineering, artificial intelligence-assisted design, and sustainable biomanufacturing. Her work focuses on structure-guided rational design of enzymes, advanced AI-driven enzyme optimization, and biocatalytic synthesis of high-value chemicals including chiral sulfoxides, hydroxy acids, and pharmaceutical intermediates. Her research has pioneered next-generation enzyme engineering frameworks that integrate molecular modeling, machine learning, and catalytic mechanism elucidation to achieve improved substrate adaptability, stability, selectivity, and process efficiency. She has authored numerous high-impact publications in journals such as Angewandte Chemie, Science Advances, ACS Catalysis, ChemSusChem, and Organic Process Research & Development. Several of her enzyme-based catalytic systems have been successfully transferred to industrial practice, contributing to waste minimization, carbon reduction, and greener pharmaceutical synthesis. Her methodologies for enantioselective synthesis of chiral sulfoxides and alcohols are particularly recognized for reducing solvent usage and enabling scalable industrial applicability. Prof. Yu serves as Executive Editor of Bioresources and Bioprocessing and actively participates in international scientific societies and collaborative consortia. Her contributions have been recognized through multiple awards, including Outstanding Academic Leader of Shanghai, Outstanding Young Enzymologist Award, and the First-Level Technical Innovation Award of Shanghai. Through interdisciplinary leadership, impactful innovation, and translational research achievements, Prof. Huilei Yu continues to shape the global landscape of enzyme biotechnology and sustainable chemical manufacturing.

Profile: Scopus 

Featured Publications

  1. Multiple Authors (2025). Hinge loop reconstruction facilitates hydride transfer in Baeyer-Villiger monooxygenases.

  2. Multiple Authors (2025). Engineering an unspecific peroxygenase from Thielavia terrestris for specific terminal oxidation of xylene derivatives.

  3. Multiple Authors (2025). Flipping of a non-productive substrate binding conformation facilitates hydroxynitrile lyase catalyzed hydrocyanation.

  4. Multiple Authors (2025). Reprogramming the catalytic pocket of Baeyer–Villiger monooxygenase for environmentally compatible synthesis of a chiral sulfoxide pharmaceutical.

  5. Multiple Authors (2025). An engineered meso-diaminopimelate dehydrogenase enables the biocatalytic synthesis of bulky β-substituted D-amino acids.

Panagiotis Bousoulas | Materials Science | Research Excellence Award

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Assist. Prof. Dr. Panagiotis Bousoulas | Materials Science | Research Excellence Award

National Technical University of Athens | Greece

Assist. Prof. Dr. Panagiotis Bousoulas is an emerging scientific leader in the field of developmental biology and epigenetics, with a research program focused on understanding novel DNA and RNA modifications and their role in neural function, development, and disease. His academic foundation spans prestigious institutions, beginning with a BSc in Medical Genetics from the University of Leicester, followed by doctoral training at the University of Cambridge, UK, where he completed PhD rotations under globally recognized pioneers, including Sir John B. Gurdon, Sarah Bray, and Azim Surani. Prior to this, he studied Physics at the University of Stuttgart, Germany—a multidisciplinary background that contributes to his systems-level scientific approach. Dr. Bousoulas’ professional trajectory includes advanced postdoctoral research at major international institutions such as the Gurdon Institute (Cambridge), Yale University, and the Broad Institute/Harvard University, where he worked with Sir John B. Gurdon, Antonio Giraldez, and John Rinn—leading authorities in developmental biology and genomics. He currently serves as a Principal Investigator at the Chinese Institute for Brain Research (CIBR), where he leads an independent research group supported by multiple competitive funding awards, including the Beijing Natural Science Foundation, Human Frontiers Long-Term Fellowship, Isaac Newton Trust, and a major BBSRC project grant exceeding £830,000. His groundbreaking work contributed to the discovery of methylated deoxyadenosine (m6dA) in vertebrate genomes, reported in Koziol et al., 2015, which opened an entirely novel field in vertebrate epigenetics. His research continues to advance global understanding of how DNA and RNA chemical modifications regulate brain development and contribute to neurological disease, with potential applications in diagnostics and therapeutics. Recognized for excellence early in his career, Dr. Bousoulas has received awards from the AAAS Science Journal, Queen Elizabeth II, the Wellcome Trust, and Cambridge European Trust. His research has significant societal impact, contributing to improved understanding of molecular mechanisms underlying brain disorders and offering potential routes toward medical innovation.

Profile: Scopus | ORCID

Featured Publications

  • (2025). Closed-loop CBRAM crossbar system toward hardware acceleration of quantum algorithms. IEEE Transactions on Circuits and Systems

  • (2025). Low-power perovskite-based memristors enable fused reservoir computing and neuromorphic vision with highly accurate color perception.

  • (2025). A physics-based compact SPICE model emulating volatile and non-volatile switching patterns to heart arrhythmia detection.

  • (2025). Highly reliable perovskite-based memristors using Ag nanoparticles/FA₂PbI₄ junctions for enhanced memory and optoelectronic synaptic performance.

  • (2025). Low-power FA₂PbI₄/SiO₂ bilayer memristors with Pt nanoparticles exhibiting reconfigurable synaptic and neuron properties for compact optoelectronic neuromorphic systems.

Magdalena Koziol | Biochemistry | Research Excellence Award

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Assist. Prof. Dr. Magdalena Koziol | Biochemistry | Research Excellence Award

Chinese Instistute for Brain Research | China

Dr. Magdalena Koziol is an Assistant Professor and Principal Investigator at the Chinese Institute for Brain Research (CIBR), China, where she leads an innovative research program at the intersection of developmental biology, epigenetics, and neuroscience. She completed her PhD in Developmental Biology at the University of Cambridge, UK, supported by a prestigious Wellcome Trust Studentship, with laboratory rotations under globally recognized leaders including Sir John B. Gurdon, Sarah Bray, and Azim Surani. Prior to this, she earned a BSc in Medical Genetics from the University of Leicester, UK, where she received two academic excellence awards, and previously undertook Physics studies at the University of Stuttgart, Germany. Dr. Koziol’s postdoctoral career includes highly competitive appointments with Sir John B. Gurdon at the Gurdon Institute, Antonio Giraldez at Yale University, and John Rinn at Harvard University and the Broad Institute. Her interdisciplinary background has helped shape a research portfolio focused on uncovering previously unknown chemical modifications of DNA and RNA and understanding their functional relevance in the vertebrate brain. Her groundbreaking discovery of methylated deoxyadenosine (m6dA) in vertebrate genomes, published in 2015, established a new field of study in epigenetic regulation and earned recognition from AAAS Science for excellence in scientific achievement. Her research has secured major competitive funding, including support from the Beijing Natural Science Foundation, the Koziol Laboratory core funding at CIBR, the BBSRC (UK), the Isaac Newton Trust, and the Human Frontiers Long-Term Fellowship program. She has also been recognized with distinguished honors, including an invitation to Buckingham Palace by Queen Elizabeth II. Through high-impact publications, international collaboration, and translational scientific vision, Dr. Koziol’s work contributes to advancing molecular neuroscience, with growing implications for understanding brain disorders and developing therapeutic strategies.

Profiles: ORCID

Featured Publications

Li, S., Zhang, S., Li, H., Yin, N., Yang, R., Zhang, Y., Koziol, M. J., & Faiola, F. (2025). Environmental UV filters threaten human neurodevelopment: Disruption of central and peripheral nervous system lineage commitment via WNT signaling dysregulation.

Feng, S., & Koziol, M. J. (2025). Unraveling brain complexity: From single-cell to spatial m6A technologies.

Feng, S., Tellaetxe-Abete, M., Zhang, Y., Peng, Y., Zhou, H., Dong, M., Larrea, E., Xue, L., Zhang, L., & Koziol, M. J. (2024). Single-cell discovery of m6A RNA modifications in the hippocampus.

Feng, S., Tellaetxe-Abete, M., Zhang, Y., Peng, Y., Zhou, H., Dong, M., Larrea, E., Xue, L., Zhang, L., & Koziol, M. J. (2023, December 13). Single-cell discovery of m6A RNA modifications in the hippocampus.

Wen, M.-H., Triana, H. B., Butler, R., Hu, H.-W., Dai, Y.-H., Lawrence, N., Hong, J.-J., Garrett, N., Jones-Green, R., Rawlins, E. L., & others. (2023). Deterministic nuclear reprogramming of mammalian nuclei to a totipotency-like state by amphibian meiotic oocytes for stem cell therapy in humans.

Georgia Zahariou | Biochemistry | Research Excellence Award

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Dr. Georgia Zahariou | Biochemistry | Research Excellence Award

Institute of Nanoscience and Nanotechnology, NCSR “Demokritos”, Athens, Greece

Dr. Georgia Zahariou is an accomplished physicist specializing in Electron Paramagnetic Resonance (EPR) spectroscopy, photosynthetic water oxidation mechanisms, and bioinorganic magnetic materials. She is currently a Postdoctoral Researcher at the Institute of Nanoscience and Nanotechnology at the National Center for Scientific Research (NCSR) Demokritos in Athens, Greece, where she contributes to cutting-edge research on photosystem II and the molecular mechanisms underlying oxygen evolution. Dr. Zahariou earned her Ph.D. in Physics from the National and Kapodistrian University of Athens in collaboration with NCSR Demokritos, graduating with Excellence. Her doctoral research focused on spin-spin interactions in metalloradical systems and the mechanistic study of natural photosynthetic water splitting, forming the foundation of her long-term scientific trajectory. She also holds a Master’s degree in Solid-State Physics and a Bachelor’s degree in Physics from the same institution. With extensive research experience across leading laboratories in Greece and internationally—including the University of Padova and the University of Crete—Dr. Zahariou has contributed to multiple national and European research programs such as HELIOS, THALIS, and KRIPIS. She has presented her work at numerous international conferences, delivered invited talks, and earned important distinctions including the Young Talent Award (2015) and the 4th Poster Prize (2007) from the International Society of Photosynthesis Research. Her scientific output includes over 25 peer-reviewed journal articles, book chapters, and conference proceedings, with contributions published in high-impact venues like Angewandte Chemie, FEBS Letters, and Biochemistry. Her research features both experimental and theoretical studies, reflecting strong interdisciplinary expertise in spectroscopy, magnetochemistry, molecular bioenergetics, and computational modeling. Dr. Zahariou’s work continues to advance global understanding of catalytic mechanisms in natural and artificial photosynthesis, positioning her as a recognized expert in magnetic resonance applications to biological energy conversion.

Profiles: Scopus | ORCID

Featured Publications

  1. (2021). Di-2-pyridyl ketone-based ligands as evergreen “trees” in the “forest” of manganese chemistry: Mononuclear Mn(III) complexes from the use of MnF₃. Polyhedron, 207, Article 115350.

  2. (2021). Arrested substrate binding resolves catalytic intermediates in higher-plant water oxidation. Angewandte Chemie International Edition, 60, 3156–3162.

  3. (2021). Electronic properties of the S = 5/2 Mn(II) complexes [MnPhC(O)NP(O)PPh₂(N,N)(NO₃)], (N,N) = phenanthroline, neocuproine, 2,2′-bipyridine. Polyhedron, 207, Article 115374.

  4. (2021). Electronic structure of tyrosyl D radical of photosystem II, as revealed by 2D-hyperfine sublevel correlation spectroscopy. Magnetochemistry, 7, Article 131.

  5. (2021). Orientational Jahn–Teller isomerism in the dark-stable state of nature’s water oxidase. Angewandte Chemie International Edition, 60, 13493–13499.

Dujiang Yang | Health Professions | Best Researcher Award

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Dr. Dujiang Yang | Health Professions | Best Researcher Award

The Affiliated Hospital of Traditional Chinese Medicine of Southwest Medical University Spinal Surgery Group | China

Dr. Dujiang Yang is currently pursuing his graduate studies in Traditional Chinese Medicine (Orthopedics and Traumatology) at Southwest Medical University (September 2023–June 2026). Despite being in training, he has already established an exceptionally prolific academic record, demonstrating strong research capability and outstanding scientific productivity. As the first author, he has published 43 English SCI-indexed papers, one Chinese Peking University Core article, several regular English journal papers, and additional Chinese publications. His cumulative SCI impact factor as first author has reached 264.5, reflecting both depth and influence in interdisciplinary biomedical research. His publications span top-tier journals including Annals of the Rheumatic Diseases (IF=20.6), Journal of Extracellular Vesicles (IF=14.5), Advanced Science (IF=14.3), Leukemia (IF=13.4), Cardiovascular Research (IF=13.2), Angiogenesis (IF=9.2), British Journal of Pharmacology (IF=7.7), and many others across fields such as immunology, degenerative diseases, oncology, tissue engineering, and stem cell therapies. His research interests are broad yet cohesive, focusing on molecular mechanisms of disease, regenerative medicine, biomaterials, single-cell analysis, and translational therapeutic strategies. In addition to research articles, he has also contributed multiple commentary papers in SCI journals, including a notable commentary in JAMA Network Open (IF=9.7). Beyond published work, Yang also has several manuscripts under review or accepted, including research utilizing multi-omics approaches, machine learning, network pharmacology, UHPLC-Q-Orbitrap-ESI-MS, and spatial transcriptomics, further demonstrating advanced methodological skills and translational vision. His work—ranging from tendon repair, osteoarthritis treatment, muscle regeneration, virology, to stem cell-based therapy—reflects a rare integration of modern biomedical science with traditional Chinese medicine perspectives. Yang has actively contributed to multiple funded scientific research projects under the supervision of Professor Guoyou Wang. His roles include project design, experimental execution, and manuscript preparation. Key projects include: a National Natural Science Foundation project exploring mechanisms of Shaoyang Shenggu prescription in regulating IL-17/NF-κB pathways to inhibit chondrocyte senescence; and several Sichuan Provincial research grants focused on network pharmacology, TGF-β/GPX4 signaling, iron-death mechanisms, and therapeutic evaluation of traditional herbal approaches in knee osteoarthritis.

Profile: ORCID

Featured Publications

  1. (2025). Navigating the complex landscape of DPP4 inhibition in inflammation: From novel mechanisms to unresolved translational challenges. Inflammation Research.

  2. (2025). USP5-laden ApoEVs and E2F1 stabilization in disc repair: Unresolved questions on senescence, specificity and endosomal escape. Journal of Extracellular Vesicles.

  3. (2025). Advancing the tendinopathy triad: Comment on “Tendinopathy: The interplay between mechanical stress, inflammation, and vascularity”. Advanced Science.

  4. (2025). Time to move beyond treatment initiation: Implementing risk-stratified therapy in fracture liaison services. Osteoporosis International.

 

Wang Haiyan | Chemistry | Research Excellence Award

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Assoc. Prof. Dr. Wang Haiyan | Chemistry | Research Excellence Award

Zhejiang Normal University | China

Assoc. Prof. Dr. Wang Haiyan is a member of the Communist Party of China, an Associate Professor, and a Master’s Supervisor at Zhejiang Normal University. He was selected to the Clarivate Analytics Top 2% Global Scientists list for 2022–2025. He earned his Ph.D. in Chemistry from Zhejiang University under the supervision of Prof. Yong Wang (National Outstanding Young Scientist). During his doctoral training, he also conducted joint research at the Institute of Metal Research, Chinese Academy of Sciences, guided by Researcher Feng Li (National Outstanding Young Scientist). Dr. Wang’s research lies at the intersection of inorganic nanomaterial synthesis and advanced energy storage and conversion systems, including electrocatalysis, hybrid capacitors, and energy-relevant nanostructures. He has authored more than 70 SCI-indexed publications in leading journals such as Nature Communications, Journal of the American Chemical Society, Advanced Energy Materials, Advanced Functional Materials, Nano Energy, ACS Catalysis, and Applied Catalysis B: Environmental. Among his publications, four have been recognized as ESI Hot Papers and eleven as ESI Highly Cited Papers, reflecting strong global influence. His work currently holds an h-index of 38. Dr. Wang has led nine research projects supported by national and provincial funding bodies, including the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. His research contributions have been acknowledged through multiple honors, including a First Prize in the China Association of Inventions Entrepreneurship Innovation Award. Dr. Wang is also highly active in academic mentorship and innovation education. His students have earned numerous prestigious awards, including the Gold Medal at the China International College Student Innovation Competition and top honors in provincial “Challenge Cup” and “Internet+” competitions. He has been recognized as an Outstanding Innovation and Entrepreneurship Mentor and currently serves as Vice President of Technology for a carbon-neutrality-focused enterprise. Additionally, he serves on multiple editorial and technical committees and reviews for leading international journals.

Profile: Scopus

Featured Publications

  1. (2026). In situ manipulation of interfacial water in Ni-Co₃O₄ for efficient neutral nitrate electroreduction to ammonia. Applied Catalysis B: Environmental.

  2. (2025). Reciprocal enhancement of iodine and manganese redox kinetics towards high-performance rechargeable zinc-iodine-manganese hybrid batteries. Journal of Energy Chemistry.

  3. (2025). Enhanced energy storage density and efficiency in A/B-site-engineered silver niobate ceramics. Ceramics International.

  4. Electrocatalysts in zinc-iodine batteries: Theoretical insights and material design..

  5. Recent progress in the inhibition of metal dendrites in sodium/potassium ion batteries..

 

Ahmed A Holiel | Dentistry | Research Excellence Award

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Assist. Prof. Dr. Ahmed A Holiel | Dentistry | Research Excellence Award

Alexandria University, Beirut Arab University | Egypt

Assist. Prof. Dr. Ahmed A. Holiel is an accomplished academic and clinician specializing in Restorative and Esthetic Dentistry, with a core research focus on biomaterials, pulp regeneration, digital dentistry, and adhesive restorative systems. He earned his Bachelor’s degree with honors from the Faculty of Dentistry, Alexandria University, followed by a Master’s and Ph.D. in Restorative & Esthetic Dentistry from the same institution. Notably, he became the first researcher at Alexandria University’s Faculty of Dentistry to be exempted from Ph.D. thesis defense after publishing two articles in top-tier ISI journals. Dr. Holiel has progressed through a solid academic career pathway, beginning as a Demonstrator and later assuming roles as Assistant Lecturer and Lecturer at Alexandria University. He currently serves as an Assistant Professor of Restorative & Esthetic Dentistry at Beirut Arab University, Lebanon. He has also contributed internationally as a visiting lecturer at multiple institutions, including the Arab Academy for Science, Technology & Maritime Transport. His contributions to research are significant, with numerous peer-reviewed publications in well-recognized journals covering tissue engineering, biomimetic materials, laser dentistry, pulp regeneration, and emerging technologies in dental science. His work includes multiple clinical trials, in vitro studies, systematic reviews, meta-analyses, and innovation-driven translational research. He also serves as a peer reviewer for leading scholarly journals and acts as Guest and Lead Editor for notable international journals, demonstrating his expertise and academic leadership. Dr. Holiel’s teaching portfolio includes undergraduate, postgraduate, and international credit-hour programs, with roles as course director and coordinator in various operative and esthetic dentistry modules. His clinical experience extends to digital workflows, CAD/CAM systems, smile design, and laser-assisted restorative procedures. A recipient of several distinctions, including the Egyptian Hatton Award and multiple institutional recognitions, Dr. Holiel is an active member of global professional bodies such as the International Association for Dental Research (IADR) and the Tissue Engineering and Regenerative Medicine Society.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

Grawish, M. E., Grawish, L. M., Grawish, H. M., Grawish, M. M., Holiel, A. A., Sultan, N., … (2022). Demineralized dentin matrix for dental and alveolar bone tissues regeneration: An innovative scope review. Tissue Engineering and Regenerative Medicine, 19(4), 687–701.

Holiel, A. A., Mahmoud, E. M., Abdel-Fattah, W. M., & Kawana, K. Y. (2021). Histological evaluation of the regenerative potential of a novel treated dentin matrix hydrogel in direct pulp capping. Clinical Oral Investigations, 25(4), 2101–2112.

Holiel, A. A., Mahmoud, E. M., & Abdel-Fattah, W. M. (2021). Tomographic evaluation of direct pulp capping using a novel injectable treated dentin matrix hydrogel: A 2-year randomized controlled clinical trial. Clinical Oral Investigations, 25(7), 4621–4634.

Morsy, N., & Holiel, A. A. (2023). Color difference for shade determination with visual and instrumental methods: A systematic review and meta-analysis. Systematic Reviews, 12(1), 95.

Abbassy, K. M., Elmahy, W. A., & Holiel, A. A. (2023). Evaluation of the proximal contact tightness in class II resin composite restorations using different contact forming instruments: A 1-year randomized controlled clinical trial. BMC Oral Health, 23(1), 729.

Ricardo Salas Flores | Medicine and Dentistry | Global Health Impact Award

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Dr. Ricardo Salas Flores | Medicine and Dentistry | Global Health Impact Award

Autonomous University of Tamaulipas | Mexico

Dr. Ricardo Salas Flores is an accomplished Pediatric Endocrinologist, clinical researcher, and academic leader with more than two decades of professional experience in pediatric endocrine disorders, diabetes, and obesity research. He currently serves as Principal Investigator at his research site, Dr. Ricardo Salas Flores Office (2011–present), and holds multiple academic roles including Full-Time Teacher and Professor of Endocrinology at the Faculty of Medicine “Dr. Alberto Romo Caballero,” Universidad Autónoma de Tamaulipas, Mexico. In addition, he serves as Clinical Health Education Coordinator and Associate Physician in Endocrinology at Hospital General No. 6 del IMSS in Ciudad Madero. Dr. Salas Flores earned a Medical Specialty in Pediatrics, followed by a Subspecialty in Pediatric Endocrinology and a Master of Medical Science from the Autonomous University of Tamaulipas. His professional qualifications are supported by national certifications, including Good Clinical Practice (CITI Program, 2020) and Digital Health Expert credentials. His clinical expertise spans metabolic disorders, pediatric diabetes, thyroid dysfunction, growth disorders, and endocrine-related chronic disease management. As a clinical researcher, Dr. Salas Flores has participated in multiple studies across Phase I to Phase IV clinical trial stages, with extensive experience in obesity-related research, including childhood obesity, fatty liver disease, and musculoskeletal health. His research scope also includes Type 1 and Type 2 diabetes, demonstrating a strong contribution to advancing endocrine care and supporting translational medical innovation. Dr. Salas Flores has collaborated with government programs, academic institutions, and industry partnerships to improve clinical practice and increase access to evidence-based endocrine care. His scientific work reflects a commitment to improving population health, strengthening pediatric care capacities, and advancing medical education in Mexico. Through his roles as educator, clinician, and researcher, he continues to mentor future healthcare professionals while contributing to the global medical community through research-driven medical practice.

Profiles: Scopus | ORCID

Featured Publications

Salas Flores, R. (2021). Alteraciones ultrasonográficas y funcionales hepáticas en niños y adolescentes con obesidad. Atención Familiar.

Salas Flores, R. (2021). Factores de riesgo asociados a retraso del crecimiento intrauterino. South Florida Journal of Development.

Salas Flores, R. (2021). Prevalencia de factores de riesgo que alteran la microbiota intestinal en niños escolares con sobrepeso y obesidad. South Florida Journal of Development.

Salas Flores, R. (2020). Conocimientos, actitudes y prácticas de los profesionales de la salud ante el VIH/SIDA en el primer nivel de atención. South Florida Journal of Development.

Salas Flores, R. (2020). Inercia terapéutica del médico familiar en pacientes con descontrol hipertensivo. South Florida Journal of Development.

Ahmed Issa Alnahhal | Engineering | Research Excellence Award

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Mr. Ahmed Issa Alnahhal | Engineering | Research Excellence Award

Budapest University of Technology and Economics | Hungary

Mr. Ahmed Issa Alnahhal is an Electrical Engineer and emerging scholar specializing in advanced photovoltaic technologies, hybrid renewable energy systems, and semiconductor device fabrication. With more than ten years of combined academic, research, and engineering experience, he has developed strong interdisciplinary expertise spanning cleanroom fabrication processes, semiconductor device physics, thin-film characterization, and photovoltaic system modelling. He is currently pursuing his PhD in Electrical Engineering at Budapest University of Technology and Economics, Hungary, where his research focuses on advanced Hybrid Photovoltaic–Thermoelectric Generator (PV-TEG) systems and Perovskite/Si tandem solar cells. His work includes simulation, optimization, loss analysis, and experimental fabrication of next-generation energy harvesting systems. Ahmed has authored multiple peer-reviewed journal articles and conference papers in top-tier platforms, including IEEE Transactions on Components, Packaging and Manufacturing Technology, Advanced Theory and Simulation, and Energy Conversion and Management X. His key contributions include extending the single-diode solar cell model using spectral sensitivity, analyzing spectrum-splitting photovoltaic–thermoelectric architectures, and developing mathematical models for hybrid and tandem photovoltaic systems. His publications have been presented at prestigious international conferences such as CANDO-EPE, THERMINIC, and IWTPV, reflecting international relevance and scientific rigor. His academic engagement includes teaching courses in semiconductor device physics, advanced solar cell technologies, and microelectronics. Professionally, he brings extensive experience in PCB design, electronics testing, laboratory coordination, and system-level integration. Ahmed has participated in specialized technical programs hosted by Infineon Technologies, Czech Technical University, and Warsaw University of Technology, strengthening his global research footprint and industrial alignment. Driven by sustainability and energy security challenges, his research aims to improve the efficiency and accessibility of solar energy systems, contributing to long-term environmental and industrial impact. Through collaboration, innovation, and practical engineering problem-solving, Ahmed continues advancing the frontier of high-efficiency solar energy conversion technologies.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

Alnahhal, A. I., Halal, A., & Plesz, B. (2022). Thermal-electrical model of concentrated photovoltaic-thermoelectric generator combined system for energy generation. Proceedings of the International Workshop on Thermal Investigations of Integrated Circuits and Systems.

Alnahhal, A. I., Halal, A., & Plesz, B. (2022). Temperature-dependent performance of concentrated monocrystalline silicon solar cell. Proceedings of the International Scientific Conference on Electric Power Engineering.

Halal, A., Alnahhal, A. I., & Plesz, B. (2022). Performance analysis of perovskite solar cell by considering temperature effect on physical parameters of the absorber layer. Proceedings of the International Workshop on Thermal Investigations of Integrated Circuits and Systems.

Halal, A., Alnahhal, A. I., & Plesz, B. (2022). Numerical simulation and design optimization of highly efficient lead-free perovskite/c-Si tandem solar cell. Proceedings of the International Scientific Conference on Electric Power Engineering.

Halal, A., Alnahhal, A. I., & Plesz, B. (2022). Numerical simulation-based physical parameter analysis of perovskite/c-Si tandem photovoltaic cells. Proceedings of the International Scientific Conference on Electric Power Engineering.