Md. Shazzadur Rahman | Environmental Biophotonics Research | Best Researcher Award

Mr. Md. Shazzadur Rahman | Environmental Biophotonics Research | Best Researcher Award

Institute of Mining, Mineralogy and Metallurgy | Bangladesh

Md. Shazzadur Rahman is a dedicated environmental geoscientist specializing in groundwater contamination, particularly arsenic pollution in Bangladesh. He holds a B.Sc. and M.S. in Geology and Mining, and an M.Phil. in Environmental Science from the University of Rajshahi, where he graduated with top honors. His research focuses on arsenic geochemistry, rock-water interaction, and health risk assessment, utilizing advanced tools like Monte Carlo simulation, GIS, and machine learning. Rahman has published multiple high-impact articles in leading journals such as Chemosphere and Environmental Sciences Europe, highlighting his contributions to understanding contaminant sources and health implications. He is proficient in software including PHREEQC, AquaChem, ArcGIS, and SPSS, and has completed significant geological fieldwork across Bangladesh. His work bridges environmental science and public health, aiming to provide sustainable solutions for groundwater safety. With strong academic credentials and growing international recognition, Rahman is emerging as a promising researcher committed to addressing critical environmental challenges.

Profile : Scopus | Orcid 

Featured Publications

  • Arsenic in groundwater from Southwest Bangladesh: Sources, water quality, and potential health concern

  • Accumulation of arsenic and other metals in soil and human consumable foods of Meherpur district, southwestern Bangladesh, and associated health risk assessment

  • Mobilization mechanisms and spatial distribution of arsenic in groundwater of western Bangladesh: Evaluating water quality and health risk using EWQI and Monte Carlo simulation

  • Comprehensive assessment of trace element pollution and its distribution in surface and groundwater around the Ishwardi export processing zone, Bangladesh

  • Seasonal variation, spatial distribution, and health risk assessment of trace elements in a major canal of Chittagong, Bangladesh: Implications for irrigation suitability

  • Hydrogeochemical analysis of aquifer in northwestern part of Bangladesh: Implication for targeting low arsenic zone

Shedrach Yakubu | Smart Biophotonics Applications | Young Researcher Award

Mr. Shedrach Yakubu | Smart Biophotonics Applications | Young Researcher Award


Federal University Of Sao Paulo | Brazil

Shedrach Yakubu is a doctoral researcher at the Federal University of São Paulo, Brazil, with a strong academic background in industrial chemistry and materials science. He specializes in the synthesis and characterization of multiferroic, ferroelectric, and hybrid perovskite materials, with applications in piezoelectric, photonic, and energy-harvesting technologies. His research combines experimental solid-state chemistry with advanced material analysis techniques to explore sustainable solutions for modern technological challenges. He has contributed to several peer-reviewed publications and actively presents his work at international conferences, demonstrating a growing reputation in the fields of materials science and green chemistry.

Profile : Scopus | Orcid

Featured Publications 

  • “Synthesis of Er-Yb co-doped MgNb₂O₆ ceramics and the exploration of their up-conversion photoluminescence and photocatalytic properties”

  • “Kinetics, Thermodynamics, and Isotherm Properties of Lead & Silver Metal Ions Removal from Aqueous Solution Using Tea Leaves and Tea Fibers (Camellia sinensis)”

  • “Biosorption of Antimony Using Tea Leaves and Tea Fibers (Camellia sinensis) as Adsorbents: Thermodynamics, Isotherm, and Kinetics”

  • “Antioxidant Activity of Bioactive and Mineral Constituents of Jatropha curcas Linn. (Euphorbiaceae) Leaf and Seed Extract”

  • “Proximate Analysis of Smokeless Briquettes Using Agro-waste (Rice Chaff, Maize Cob and Saw Dust)”

  • “Comparative Studies of the Biosorption of Iron Using Tea Leaves and Tea Fiber as Adsorbents”

  • “Morphological and Spectroscopic Characterization of Costus afer Leaf Modified with Archachatina marginata Mucus as a Carrier for Anti-diabetic Therapy”

  • “Physicochemical, Proximate, Heavy Metals, and Antimicrobial Assessment of Selected Herbal Medicinal Products in Awka, Nigeria”

  • “Advancements in Green Chemistry: Sustainable Synthesis and Processes”

  • “Binary Metal Ions Adsorption of Manganese and Silver from Aqueous Solution Using Tea Leaf and Tea Fiber”

Xiaoliang Xu | Surface Plasmon Technologies | Biosensing Breakthrough Award

Prof. Dr. Xiaoliang Xu | Surface Plasmon Technologies | Biosensing Breakthrough Award

Prof. Dr. Xiaoliang | University of Sci. and Tech. of China | China

Prof. Dr. Xiaoliang Xu is a renowned physicist specializing in solid state physics, nanotechnology, and biosensing. He completed advanced degrees in solid state and nuclear physics from prestigious universities and undertook postdoctoral research to deepen his expertise. Currently a professor at the University of Science and Technology of China, he has a long-standing academic career marked by leadership in innovative research projects. His work spans the development of advanced plasmonic nanomaterials and multifunctional nanoprobes for biomedical applications, particularly in diagnostics and therapy. Prof. Xu holds patents for novel photocatalysts and quantum dot technologies, highlighting his contributions to translating fundamental science into practical tools for healthcare and environmental monitoring.

Profile

Scopus

Education

Prof. Xu’s academic background combines solid state physics and nuclear physics, beginning with foundational undergraduate studies in nuclear electronics. He advanced through master’s level training focused on nuclear physics and later specialized in solid state physics during his graduate and doctoral studies at top institutions. This diverse and rigorous education provides him with a deep understanding of physical principles and materials science, enabling him to innovate at the intersection of physics and nanotechnology. His education prepared him for interdisciplinary research in advanced materials and their applications in biosensing and photonics.

Experience

Prof. Xu has built a distinguished academic career progressing from lecturer to full professor within the physics department of a leading science university. His experience includes extensive teaching, mentoring, and leadership of scientific research projects in nanomaterials and photoelectrochemical systems. He completed postdoctoral research early in his career, which laid the groundwork for his focus on plasmonics and multifunctional nanomaterials. Over the years, he has led multiple research initiatives that bridge physics, chemistry, and biomedical science, contributing to advancements in diagnostic technologies and renewable energy applications.

Awards and Honors

Throughout his career, Prof. Xu has received significant recognition for his scientific contributions, including multiple national research grants. His innovative work has led to key inventions patented under his leadership, demonstrating his ability to drive practical technological advances. While specific awards are not listed, his sustained funding success, high-impact publications, and patent achievements reflect his respected reputation in the research community. His work has been widely recognized for advancing biosensing technology and contributing to cancer research and environmental science.

Research Focus

Prof. Xu’s research focuses on the design and application of plasmon-enhanced nanomaterials and photoelectrochemical devices for biosensing and medical diagnostics. He explores mechanisms of plasmonic energy transfer to develop highly sensitive and selective nanoprobes capable of detecting biomolecules at ultralow concentrations. His work integrates materials science, physics, and bioengineering, aiming to create multifunctional platforms for tumor diagnosis, stem cell research, and environmental monitoring. The research emphasizes innovative composites and nanostructures optimized for photoelectric conversion and photothermal therapy, reflecting a strong interdisciplinary approach.

Publications

Ultrathin MoS2 nanosheets for high-performance photoelectrochemical applications via plasmonic coupling with Au nanocrystals
Authors: Asad Ali, Farhana Akbar Mangrio, Xiaolin Chen, Yiwen Dai, Kui Chen, Xiaoliang Xu*, Ruixiang Xia, Lixin Zhu
Journal: Nanoscale
Year: 2019

Zn dopants synergistic oxygen vacancy boosts ultrathin CoO layer for CO2 photoreduction
Authors: Chen Kui, Jiang Tongtong, Liu Tianhua, Yu Jing, Zhou Sheng, Liu Yu, Zhu Lixin, Xu Xiaoliang*
Journal: Advanced Functional Materials
Year: 2022

Au nanostars@PDA@Fe3O4-based multifunctional nanoprobe for integrated tumor diagnosis and photothermal therapy
Authors: Shuhui Wang, Yan Zhang, Kui Chen, Yiwen Dai, Dachen Zhou, Asad Ali, Xiaoliang Xu*, Tongtong Jiang, Lixin Zhu
Journal: Materials and Design
Year: 2021

Potassium-Doped g-C3N4 Achieving Efficient Visible-Light-Driven CO2 Reduction
Authors: Wang Shuhui, Zhan Jiawei, Chen Kui, Ali Asad, Zeng Linghui, Zhao He, Hu Wanglai, Zhu Lixin, Xu Xiaoliang*
Journal: ACS Sustainable Chemistry & Engineering
Year: 2020

An in situ-fabricated p-Co3O4@n-ZnO surface heterojunction photocatalyst for solar-to-fuel conversion of CO2
Authors: Wang Qiuyan, Chen Kui, Wang Shuhui, Jiang Daheng, Ma Changqiu, Zhu Lixin, Xu Xiaoliang*
Journal: Materials Chemistry Frontiers
Year: 2023

Conclusion

Prof. Dr. Xiaoliang Xu is a distinguished scientist whose extensive education and rich academic experience have positioned him as a leader in the fields of solid state physics and nanotechnology. His pioneering research on plasmonic nanomaterials and multifunctional nanoprobes bridges fundamental physics with cutting-edge biomedical applications, particularly in biosensing and cancer diagnostics. Supported by strong funding and multiple patents, his work continues to advance innovative solutions for healthcare and environmental challenges. Prof. Xu’s contributions demonstrate a deep commitment to scientific excellence and interdisciplinary collaboration, making him highly suitable for recognition such as the Research for Biosensing Breakthrough Award.

Zhenqian Zhang | Light-Matter Interactions | Best Researcher Award

Dr. Zhenqian Zhang | Light-Matter Interactions | Best Researcher Award

Dr. Zhenqian Zhang | Hangzhou Dianzi University | China 

Dr. Zhenqian Zhang is an Assistant Researcher and Master’s supervisor at Hangzhou Dianzi University, China. He earned his B.Eng. in Thermal Energy and Power Engineering and M.Sc. in Chemistry from Shenyang University of Chemical Technology, followed by a Ph.D. in Materials Physics and Chemistry from Northeastern University. Dr. Zhang specializes in rare-earth based magnetocaloric materials, focusing on their basic research and performance optimization. He has published over 30 peer-reviewed papers, holds 6 Chinese patents, and serves on youth editorial boards. His work has advanced magnetic refrigeration technology and material science. Dr. Zhang currently leads multiple national projects and collaborates internationally to deepen understanding of magnetic properties in rare earth compounds.

Profiles

Orcid | Scopus

Education

Dr. Zhang completed his Bachelor of Engineering in Thermal Energy and Power Engineering at Shenyang University of Chemical Technology. He then pursued a Master of Science in Chemistry at the same university, graduating . Seeking deeper specialization, he earned his Ph.D. in Materials Physics and Chemistry from Northeastern University . Throughout his academic journey, Dr. Zhang developed expertise in advanced material sciences, particularly focusing on rare-earth magnetic materials. His educational background combines engineering, chemistry, and physics, providing a multidisciplinary foundation essential for his research in magnetocaloric effects. This strong academic base has supported his extensive research output and innovation in magnetic refrigeration.

Experience

Dr. Zhang currently holds the position of Assistant Researcher and Master’s supervisor at Hangzhou Dianzi University. He leads several funded projects including those supported by the National Natural Science Foundation of China and Zhejiang Provincial Universities. His research career has focused on the synthesis and characterization of rare-earth magnetocaloric materials. Dr. Zhang has developed novel compounds with significant potential for magnetic refrigeration applications. He has been actively involved in international collaborations, notably with German and Chinese research institutions, where he applied theoretical and experimental methods to study magnetic entropy and anisotropy. Additionally, he serves as a youth editorial board member for prominent journals. His experience bridges fundamental research, project leadership, and academic mentoring, making him a key figure in his research community.

 Awards and Honors

Dr. Zhenqian Zhang has been recognized for his outstanding contributions to the field of magnetic materials. His research papers have been featured as “Outstanding Papers” in leading journals such as the Journal of Physics: Energy. He holds six Chinese patents, reflecting his innovative approach to material science. Dr. Zhang’s leadership in national projects funded by the National Natural Science Foundation of China highlights his role as an emerging leader in his field. His appointment to youth editorial boards of Metallic Functional Materials and Copper Engineering journals underscores his scientific reputation and trust within the academic community. While still early in his career, Dr. Zhang’s increasing citation count and collaborative projects with international experts demonstrate growing recognition. Continued professional engagement and awards are expected as his research impact expands.

Research Focus

Dr. Zhang’s research centers on rare-earth based magnetocaloric materials, which are critical for next-generation magnetic refrigeration technologies. His work involves synthesizing novel compounds like Gd-based metal-organic frameworks (MOFs) and rare-earth intermetallics to explore their magnetic entropy and anisotropy. Using combined experimental techniques and first-principles calculations, Dr. Zhang investigates the fundamental magnetic properties that influence cooling efficiency. A key focus is tailoring sublattice structures to optimize temperature ranges for magnetic refrigeration. His interdisciplinary collaborations extend to polymer composites and semiconductor photocatalysts, broadening the application scope of magnetic materials. By pioneering new synthesis methods and theoretical analyses, Dr. Zhang aims to overcome current material limitations, providing sustainable alternatives to conventional refrigeration. His research not only advances fundamental material science but also targets environmentally friendly technologies with real-world impact.

Publications

Gd-based ferrocene complex with a large magnetocaloric effect from rapid room temperature synthesis
Authors: Xiaofei Zhang, Yuwei Wu, Shengqi An, Zhenqian Zhang
Journal: Journal of Solid State Chemistry
Year: 2025

Crystal structure, magnetic properties and cryogenic magnetocaloric performance of garnet RE3Al5O12 (RE = Tb, Dy and Ho) compounds
Authors: Zhenqian Zhang, Guangyi Sun, Xinyue Ye, Lingwei Li
Journal: Journal of Rare Earths
Year: 2025

Crystal Structure, Magnetic Property and Cryogenic Magnetocaloric Effect of Gd4Al2O9 Aluminate
Authors: Zhang Z., Na Y., Lin J., Ye X., Li L.
Journal: SSRN (also Journal of Magnetism and Magnetic Materials)
Year: 2024

Structural, magnetic and magnetocaloric properties in distorted RE2NiTiO6 double perovskite compounds
Authors: Zhenqian Zhang, Peng Xu, Youshun Jia, Lingwei Li
Journal: Journal of Physics: Energy
Year: 2023

Conclusion

Dr. Zhenqian Zhang is a promising researcher whose multidisciplinary expertise in rare-earth magnetocaloric materials significantly contributes to advancing magnetic refrigeration technology. With a strong academic background, a solid record of publications and patents, and active engagement in nationally and internationally funded projects, he demonstrates both innovative thinking and scientific rigor. His research not only deepens fundamental understanding but also holds practical potential for sustainable cooling solutions. Dr. Zhang’s growing influence, as evidenced by his editorial roles and collaborations, positions him as a valuable candidate for recognition in research excellence awards. Continued support and opportunities will likely amplify his impact in materials science and energy-efficient technologies.

Yue Zhang | Smart Biophotonics Applications | Best Researcher Award

Assoc. Prof. Dr. Yue Zhang | Smart Biophotonics Applications | Best Researcher Award

Assoc. Prof. Dr. Yue Zhang | Nanjing university of Chinese medicine | China

Dr. Yue Zhang is an Associate Professor at Nanjing University of Chinese Medicine with expertise in DNA nanoprobes and biophotonics. She holds a Ph.D. in Chemistry from Nanjing University and has built a strong interdisciplinary background combining chemistry, nanotechnology, and biomedical sciences. Her research focuses on light-responsive nanodevices for cancer therapy, gene regulation, and molecular diagnostics. Dr. Zhang has authored publications in internationally recognized journals including JACS, Angewandte Chemie, Chemical Science, and ACS Nano. She also serves as a master’s supervisor and leads multiple research projects funded by national and provincial science foundations. Known for both academic excellence and teaching innovation, Dr. Zhang has received several honors and awards recognizing her contributions in research and education. She continues to make impactful advancements in nanomedicine, aiming to develop smarter and safer diagnostic and therapeutic systems for clinical application.

Profile

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Education

Dr. Yue Zhang completed her undergraduate and doctoral studies at Nanjing University, one of China’s premier institutions. Her academic foundation lies in chemistry, which she integrated with life sciences and nanotechnology through advanced training and research at the State Key Laboratory of Life Analytical Chemistry. Her graduate work focused on constructing functional DNA nanostructures and light-activated systems for bioanalysis and targeted therapy. With a strong emphasis on innovation, her academic career reflects consistent excellence and dedication to research that bridges disciplines. Her education has empowered her to explore advanced topics such as phototherapy, miRNA detection, and intracellular drug delivery at the molecular level, which she now applies in her professional research and mentorship roles.

Experience

Dr. Zhang serves as an Associate Professor at Nanjing University of Chinese Medicine, where she is also a graduate student supervisor. She is actively engaged in academic research, mentorship, and interdisciplinary collaboration. During her professional journey, she has led and participated in multiple high-impact studies in the fields of nanomedicine, photodynamic therapy, and DNA nanotechnology. She has co-authored numerous research articles in internationally reputed journals, and her responsibilities include managing funded research projects, supervising graduate students, and contributing to curriculum development. Her experience bridges chemistry and biomedical science, positioning her as a key figure in translational nanotechnology. Beyond research, she is recognized for excellence in teaching and academic presentation, contributing to educational development within her institution.

Awards and Honors

Dr. Yue Zhang has received multiple awards in recognition of her academic contributions and teaching excellence. Her research in nanomedicine has been honored with provincial-level science and technology awards. She was recognized for academic excellence during her doctoral studies and has been awarded distinctions for outstanding graduate performance. In her teaching role, she has earned commendations for instructional design and lecture delivery, reflecting her dedication to student engagement and academic innovation. Her selection for provincial talent initiatives highlights her potential and impact as a rising academic leader. These honors reflect a balanced achievement in both scientific research and educational contribution, showcasing her as a well-rounded and impactful scholar.

Research Focus

Dr. Yue Zhang’s research revolves around the development of DNA-based nanodevices for applications in biomedical diagnostics and therapy. She specializes in smart DNA nanoprobes, light-activated nanocarriers, and molecular imaging tools that respond to physiological or external stimuli such as near-infrared light. Her work integrates synthetic chemistry, nanotechnology, and molecular biology to create precise drug delivery systems and real-time biosensors for intracellular targets. Areas of particular interest include miRNA detection, nucleic acid amplification, and photodynamic therapy using upconversion nanoparticles. Her approach emphasizes biocompatibility, sensitivity, and controllability, with the ultimate goal of achieving effective and personalized disease treatment. The research under her leadership aims to contribute to the next generation of non-invasive, targeted diagnostic and therapeutic technologies for cancer and other complex diseases.

Publications

Activable photodynamic therapy with therapeutic effect prediction based on a self-correction upconversion nanoprobe

  • Authors: Yuyi Li, Xiaobo Zhang, Yue Zhang, Yue Zhang, Yuling He, Ying Liu*, Huangxian Ju*

  • Journal: ACS Applied Materials & Interfaces

  • Year: 2020

Fluorescence hydrogel array based on interfacial cation exchange amplification for highly sensitive microRNA detection

  • Authors: Lina Wu, Yingfei Wang, Rong He, Yue Zhang, Yuling He, Chao Wang, Zhenda Lu, Ying Liu*, Huangxian Ju*

  • Journal: Analytica Chimica Acta

  • Year: 2019

A DNA dual lock-and-key strategy for cell-subtype-specific siRNA delivery

  • Authors: Kewei Ren, Ying Liu*, Jie Wu, Yue Zhang, Zhu Jing, Huangxian Ju*

  • Journal: Nature Communications

  • Year: 2016

Immunoreaction-triggered DNA assembly for one-step sensitive ratiometric electrochemical biosensing of protein biomarker

  • Authors: Kewei Ren, Jie Wu, Feng Yan, Yue Zhang, Huangxian Ju*

  • Journal: Biosensors and Bioelectronics

  • Year: 2015

Proximity hybridization regulated DNA biogate for sensitive electrochemical immunoassay

  • Authors: Kewei Ren, Jie Wu, Yue Zhang, Feng Yan, Huangxian Ju*

  • Journal: Analytical Chemistry

  • Year: 2014

Conclusion

Dr. Yue Zhang exemplifies the qualities of a top-tier researcher through her innovative work in nanobiotechnology and biophotonics. Her track record of high-impact publications, interdisciplinary collaboration, and successful research funding demonstrates scientific leadership and excellence. She has significantly contributed to advancing DNA nanotechnology for precise diagnostics and therapies, while also maintaining strong involvement in graduate mentorship and educational development. Her recognition through awards and talent programs further supports her suitability for prestigious accolades. Dr. Zhang is a strong candidate for the Best Researcher Award, and her contributions are poised to have lasting influence in the fields of biomedical science and nanomedicine.

Ahmed EL HAMDAOUI | Nonlinear Optical Applications | Best Researcher Award

Dr. Ahmed EL HAMDAOUI | Nonlinear Optical Applications | Best Researcher Award

Dr. Ahmed EL HAMDAOUI | University Hassan II of Casablanca | Morocco

Dr. Ahmed EL HAMDAOUI is a researcher in Computational Materials Science and Artificial Intelligence. His expertise lies in molecular dynamics simulations and machine learning for predicting and understanding the structural, mechanical, and vibrational behavior of complex materials, especially silicate and bioactive glasses. He has authored multiple scientific publications and presented his work at major international conferences. Alongside research, he is engaged in academic instruction, teaching undergraduate physics and supervising graduate-level research projects in computational modeling and AI. He also conducts training programs in Python programming, data science, and machine learning for scientific applications. Known for his interdisciplinary approach, Dr. EL HAMDAOUI integrates physics, materials science, and artificial intelligence to develop predictive models that accelerate material design. He is also an active contributor to scientific events and community outreach, helping foster collaboration and innovation in his field. His research continues to make impactful contributions to materials informatics and computational physics.

Profile 

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Education 

Dr. Ahmed EL HAMDAOUI has a strong academic background in physics and materials science. He completed advanced studies focused on the use of molecular dynamics and machine learning for the analysis of silicate-based materials, contributing to the field of computational materials science. His master’s research involved the application of physics to archaeological dating and materials characterization, while his undergraduate work focused on the comparative performance of solar energy technologies. Throughout his academic journey, he developed a deep understanding of condensed matter physics, simulation tools, and data-driven modeling. He gained experience in handling scientific programming languages and simulation environments that are essential for modern materials research. His education has been multidisciplinary, incorporating theoretical physics, numerical simulation, and real-world applications. This strong academic foundation enables him to explore complex problems in materials science, apply machine learning to physical systems, and supervise research that bridges computational methods and experimental validation.

Experience

Dr. Ahmed EL HAMDAOUI has hands-on experience in both research and teaching within physics and materials science. His research includes the use of molecular dynamics to simulate glassy materials and machine learning techniques to predict mechanical and structural properties. He has studied vibrational anomalies, ion mobility, densification effects, and mechanical behavior in silicate, bioactive, and amorphous materials. As a research supervisor, he has guided graduate projects that explore the intersection of deep learning, molecular modeling, and material property prediction. In teaching, he delivers undergraduate physics courses such as thermodynamics, electromagnetism, and optics, and conducts practical lab sessions in mechanics, electricity, and instrumentation. Additionally, he provides professional training in Python programming and machine learning for scientific research. He also contributes to scientific events and academic outreach, serving on organizing committees and mentoring new students. His professional profile blends scientific rigor, teaching excellence, and applied computational research.

Awards and Honors

Dr. Ahmed EL HAMDAOUI has received recognition for his research contributions through invitations to present at national and international scientific conferences, workshops, and academic forums. His work on vibrational properties in glasses, mechanical property prediction using AI, and structure-property relationships in complex materials has gained visibility in the computational physics and materials science communities. He has played active roles in organizing scientific events, such as doctoral symposiums and research collaboration meetings, contributing to academic life beyond individual research. Participation in high-level international workshops on machine learning in condensed matter physics reflects his selection by leading scientific institutions. His leadership in guiding research projects and training students also reflects trust in his expertise. While his honors are not tied to specific awards, his consistent presence and contributions at influential scientific events and communities demonstrate his growing reputation and impact as a researcher and educator in computational materials science.

Research Focus

Dr. Ahmed EL HAMDAOUI focuses on computational modeling of materials using molecular dynamics simulations and artificial intelligence. His research addresses how atomic-scale structures influence macroscopic properties in glassy and amorphous materials. He explores structural anomalies such as the Boson peak, mechanical properties like Young’s modulus, and the effects of compositional changes and densification. By combining physical simulations with machine learning models, he aims to develop predictive frameworks for materials with tailored properties. His studies extend to perovskites, bioactive glasses, and ion-conducting glasses used in energy and biomedical applications. He also works on understanding ion mobility and structural evolution in multi-component glass systems. His interdisciplinary approach integrates physics, materials science, and data science to uncover hidden relationships and enable intelligent material design. The long-term goal of his research is to accelerate the development of advanced materials through simulation-driven and AI-enhanced methodologies, contributing to fields like renewable energy, nuclear safety, and materials engineering.

Publications 

The boson peak in silicate glasses: insight from molecular dynamics

  • Authors: A. El Hamdaoui, E. M. Ghard i, A. Atila, H. Jabraoui, M. Badawi, A. Hasnaoui, S. Ouaskit RSC Publishing+1

  • Journal: Physical Chemistry Chemical Physics

  • Year: 2023

Young’s Modulus of Calcium‑Alumino‑Silicate Glasses: Insight from Machine Learning

  • Authors: Mouna Sbai Idrissi, Ahmed El Hamdaoui, Tarik Chafiq OUCI

  • Journal: Journal of Marine Technology and Environment

  • Year: 2024

The impact of densification on the boson peak and structure in vitreous silica

  • Authors: Ahmed El Hamdaoui, El Mehdi Ghard i, Michael J. D. Rushton, Abdellatif Hasnaoui, Said Ouaskit Bangor University

  • Journal: Journal of the American Ceramic Society

  • Year : 2025

Conclusion

In summary, Dr. Ahmed EL is a highly capable and impactful researcher whose work bridges fundamental physics, computational modeling, and artificial intelligence. His contributions to understanding and predicting the properties of complex materials demonstrate both scientific depth and interdisciplinary innovation. With ongoing progress in high-impact publications, broader collaborations, and industry engagement, he stands as a strong and deserving candidate for the Research for Best Researcher Award.

 

 

Aqeel Ur Rehman | Nanoscale Photonics Research | Best Researcher Award

Dr. Aqeel Ur Rehman | Nanoscale Photonics Research | Best Researcher Award

Dr. Aqeel ur Rehman | The Islamia University of Bahawalpur | Pakistan

Dr. Aqeel Ur Rehman, Ph.D., is a dynamic mathematician at The Islamia University of Bahawalpur, bringing expertise in mathematical modeling, analysis, and computational simulation. Fluent in English and Urdu, he is renowned for his collaborative spirit and precision-driven mindset. Passionate about developing bespoke mathematical solutions for engineering systems, he excels in planning, problem analysis, and timely execution. His training includes extensive use of tools like Mathematica, MATLAB, R‑Studio, and MS Office, complemented by strong communication and teamwork abilities. As a dedicated researcher and educator, he remains committed to staying current with evolving mathematical methodologies, continually enhancing his skillset, and contributing to advancements in applied mathematics. His publications reflect his scholarly focus on nanofluid dynamics, heat and mass transfer, and stability analysis in technologically relevant systems.

Profile 

Orcid 

Education

Dr. Rehman’s academic journey spans from matriculation to a doctorate, all from The Islamia University of Bahawalpur. He completed Matric Science followed by Intermediate in Computer Science, building a foundational interest in mathematics and computational tools. He earned a Bachelor of Science in Mathematics and advanced to complete an M.Sc., deepening his theoretical and operational research skills. He pursued an M.Phil. in Mathematics, focusing on advanced differential equations and applied analysis. Finally, he was awarded a Ph.D. in Mathematics, where his dissertation centered on mathematical modeling of nanofluid flow, stability, and heat transfer using numerical techniques. His educational accomplishments reflect a continuum of academic growth in applied mathematics, computational modeling, and analytical rigor, culminating in his doctoral research contribution to fluid mechanics and hybrid nanofluid systems.

Experience

Dr. Rehman began his teaching career as a College Teaching Intern (CTI) at Government Post Graduate College, Bahawalpur, where he honed instructional skills in mathematics. He then served as Visiting Lecturer in the Department of CS & IT at The Islamia University of Bahawalpur, merging computational thinking with theoretical mathematics. Following this, he returned as CTI at Government Sadiq College of Commerce, reinforcing his ability to teach diverse student backgrounds. Currently, Dr. Rehman is a Visiting Lecturer in the Department of Statistics at the same university, where he continues to engage in academic teaching while advancing his research. Through these roles, he has gained valuable experience in curriculum delivery, student mentoring, and interdisciplinary teaching — all reinforcing his contributions to academia.

Awards & Honors

While there are no formal awards listed in the profile, Dr. Rehman has earned indirect recognition through high-impact publications in reputable international journals—a significant marker of scholarly excellence. Being published consistently in journals such as Numerical Heat Transfer, Nanotechnology, ZAMM, and Scientia Iranica implies peer-validation and the rigor of his work. Collaborative publications with international co-authors and multidisciplinary teams suggest recognition of his methodological and analytical contributions. His ability to publish multiple papers annually in good journals highlights the trust of editors and peer reviewers in his research. Participation in interdisciplinary modeling efforts—from porous medium flows to thermal radiation and hybrid nanofluids—further reflects his standing in scientific circles. Though no specific awards are mentioned, his output and venues of publication underscore a respected and emerging profile in applied mathematics research.

Research Focus

Dr. Rehman’s research spans advanced modeling of nanofluid dynamics, focussing on hybrid and ternary nanofluids interacting with complex geometries and physical processes. Core investigations address heat and mass transfer mechanisms, stability analysis, and radiative and chemically reactive flows. He applies analytical and numerical tools such as the Galerkin method, least squares, and collocation techniques to develop solutions for coupled flow–thermal problems. His work encompasses MHD (magnetohydrodynamics) effects, melting heat transfer, boundary-layer flows over stretching or rotating surfaces, and flows in porous media. Dr. Rehman integrates computational platforms like Mathematica, MATLAB, and R‑Studio to simulate, verify, and visualize outcomes. His research has practical implications in thermal engineering, biomedical systems (e.g., flows through stenotic arteries), and energy devices. This multidisciplinary modeling connects fluid mechanics, applied mathematics, and computational simulation, aimed at solving real‑world thermal‑transport challenges.

Top Publications 

Comparative investigation on radiative and heat generation effects of ternary hybrid nanofluid flow over a curved permeable surface: Stability analysis

  • Authors: Ullah, M.Z., Abbas, Z., Rehman, A.U., Mallawi, F., & Alshehri, H.M.
  • Journal: Chinese Journal of Physics
  • Year: 2024

On thermally convective flow of nanofluid past a vertical flat surface through porous medium filled with water at 4°C: Analysis of temporal stability test

  • Authors: Abbas, Z., Saeed, S., Rehman, A.U., & Rafiq, M.Y.
  • Journal: Journal of Porous Media
  • Year: 2025

Thermally radiative flow of non‐Newtonian fluid in an inclined channel through variable permeability

  • Authors: Abbas Z., Saleem, M., Rafiq, M.Y., Shahzad, H., & Rehman, A.U.
  • Journal: Journal of Engineering and Applied Sciences
  • Year: 2025

Computational analysis of radiative and viscous dissipation impacts on two-phase dusty hybrid nanofluid flow over a permeable surface

  • Authors: Almazrooei, A.E., Ullah, M.Z., Rehman, A.U., & Abbas, Z.
  • Journal: Case Studies in Thermal Engineering
  • Year: 2025

Enhancing thermal efficiency of chemically reactive ternary hybrid nanofluid flow via a stenotic artery with radiation impacts: Collocation method

  • Authors: Ullah, M.Z., Almuzaini, M., Rehman, A.U., Abbas, Z., Ayed, H., & Mouldid, A.
  • Journal: Case Studies in Thermal Engineering
  • Year: 2025

Conclusion

Dr. Aqeel Ur Rehman is a highly capable and dedicated researcher whose contributions to the field of applied mathematics and fluid dynamics are both impactful and steadily growing. With a solid educational foundation and consistent teaching experience, he has successfully integrated theoretical knowledge with practical applications in mathematical modeling, particularly in nanofluid mechanics and heat transfer. His publication record across reputable international journals reflects not only his subject mastery but also his commitment to advancing research frontiers. His interdisciplinary work, involving engineering, physics, and computational tools, demonstrates versatility and innovation in solving complex real-world problems. Dr. Rehman’s academic integrity, technical skills, and collaborative approach make him a deserving nominee for the Best Researcher Award. As he continues to evolve in his career, there is great promise for further impactful discoveries, deeper collaborations, and greater leadership in both teaching and research.

 

Siyanda Mazaleni | Spectroscopy for Biology | Best Researcher Award

Ms. Siyanda Mazaleni | Spectroscopy for Biology | Best Researcher Award

Ms. Siyanda Mazaleni | University of Kwazulu-Nata | South Africa

Siyanda Mazaleni is a passionate and driven South African researcher in the field of Medical Biochemistry, with a strong focus on molecular mechanisms and epigenetics in disease. Currently pursuing a PhD in Health Sciences at the University of KwaZulu-Natal, Siyanda’s academic journey demonstrates consistent excellence and curiosity, beginning with a BSc and BSc (Hons) in Medical Biosciences at the University of the Western Cape. With research touching on cardiovascular disease, toxicology, and pediatric kidney disorders, Siyanda is committed to using science to improve human health, particularly in underserved communities. Their work on DNA methylation, microRNAs, and gene regulation holds promise for understanding disease development at a cellular level. Beyond research, Siyanda has contributed to academia through roles in teaching and student support. With a growing list of publications and ongoing contributions to health sciences, Siyanda exemplifies the qualities of a future leader in biomedical research.

Professional Profile 

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Education 

Siyanda Mazaleni holds a BSc (2017–2019) and BSc Honours (2020–2021) in Medical Biosciences from the University of the Western Cape. These programs built a strong foundation in anatomy, physiology, immunology, reproductive health, biotechnology, microbiology, and laboratory techniques. Siyanda then pursued an MSc in Medical Science (Medical Biochemistry) at the University of KwaZulu-Natal (2021–2023), completing a thesis on the epigenetic effects of the mycotoxin deoxynivalenol (DON) on liver cells. Currently enrolled in a PhD in Health Sciences at the same institution (2023–present), Siyanda’s doctoral research focuses on genetic and epigenetic alterations in the renin-angiotensin system (RAS) in children with urological abnormalities in KwaZulu-Natal. This educational pathway highlights a deep commitment to health-focused research, with a strong blend of theoretical knowledge and practical research skills. Siyanda’s academic journey showcases a seamless progression into advanced biomedical research with societal impact.

 Experience 

Siyanda Mazaleni has acquired diverse academic and support experience across roles that complement their research work. From 2021 to 2025, Siyanda served as a Demonstrator in Medical Biochemistry at UKZN, where they provided hands-on laboratory instruction and academic guidance to undergraduate students. Additionally, Siyanda worked as a Student Assistant at the Howard College Libraries (2022–2024), supporting academic resource navigation and student engagement. In 2025, Siyanda took on a leadership role as a Facilitator in the College of Health Sciences, contributing to academic mentoring, program coordination, and student support initiatives. These experiences reflect Siyanda’s strong interpersonal and communication skills, as well as a passion for empowering others through education. Coupled with research involvement, this hands-on experience in academic environments enhances Siyanda’s capacity as both a researcher and a mentor. It also shows dedication to holistic growth in the academic and scientific communities.

Awards and Honors

While specific awards and honors have not been listed in the provided information, Siyanda Mazaleni’s academic and research achievements reflect a trajectory deserving of recognition. Siyanda’s co-authorship of peer-reviewed publications in internationally recognized journals, including the International Journal of Molecular Sciences and Food and Chemical Toxicology, highlights excellence in scholarly contributions. The acceptance of Siyanda’s research work in high-impact journals is itself an academic honor. Further, continuous roles in academia—such as a demonstrator and facilitator—often involve competitive selection based on merit, suggesting institutional recognition of Siyanda’s capabilities. Siyanda is a strong candidate for research fellowships and emerging researcher awards, including those recognizing early-career scientists in health sciences. As the PhD progresses, Siyanda is likely to gain more formal awards related to innovation, scientific presentation, and research excellence. Their growing body of work already reflects the high standards expected of award recipients in biomedical research.

Research Focus 

Siyanda Mazaleni’s research is centered on the molecular and epigenetic mechanisms underlying human disease, with a particular emphasis on gene regulation, toxicological impacts, and pediatric health. At the MSc level, Siyanda investigated how the mycotoxin DON disrupts DNA methylation through miR-29b modulation in liver cells, uncovering key links between environmental toxins and epigenetic dysregulation. Currently, their PhD research explores genetic and epigenetic alterations in components of the renin-angiotensin system (RAS) in children with ureteropelvic junction obstruction and posterior urethral valves, two significant congenital kidney disorders. This work aims to uncover biomarkers or regulatory pathways that may explain disease onset and progression in pediatric patients, particularly within the South African context. Siyanda’s broader interest in gene-environment interactions, microRNA regulation, and disease pathogenesis reflects a commitment to translational research that bridges laboratory science and public health. Their research contributes to a growing understanding of how molecular changes drive complex diseases.

Publications

Highlighting the Links between Epigenetics, COVID-19 Infection, and Vitamin D

  • Authors: Foolchand, A., Mazaleni, S., Ghazi, T., & Chuturgoon, A. A.
  • Journal: International Journal of Molecular Sciences (Int J Mol Sci)
  • Year: 2022


Deoxynivalenol induces global DNA hypomethylation by modulating the expression of miR-29b and DNA methylation regulators in HepG2 cells

  • Authors: Mazaleni, S., Ghazi, T., & Chuturgoon, A. A.
  • Journal: Food and Chemical Toxicology
  • Year: 2025

Conclusion

Siyanda Mazaleni demonstrates a strong and growing expertise in medical biosciences, particularly in the field of medical biochemistry and epigenetics. With a solid educational foundation and ongoing PhD research, Siyanda contributes valuable insights into how genetic and epigenetic factors influence human health, especially pediatric kidney diseases. Their commitment to both research and teaching highlights a balanced professional profile, blending scientific inquiry with mentorship. Siyanda’s peer-reviewed publications and active participation in academic roles position them as a promising candidate for awards such as the Best Researcher Award. Continued dedication to high-impact research and community engagement will undoubtedly further Siyanda’s contributions to biomedical sciences and improve health outcomes in South Africa and beyond.

Janaina Sena Boyce | Molecular Imaging Techniques | Best Researcher Award

Dr. Janaina Sena Boyce | Molecular Imaging Techniques | Best Researcher Award

Project Scientist at UCSD, United States

Dr. Janaina Sena Boyce is a highly accomplished neuroscientist and stem cell researcher with extensive experience in modeling neurodevelopmental and neurodegenerative disorders. She currently serves as an Assistant Project Scientist at the University of California San Diego (UCSD), where she leads and contributes to innovative research involving human iPSCs, cerebral organoids, and assembloids. Her work is instrumental in advancing understanding of disorders such as Pitt-Hopkins syndrome, Rett syndrome, and Alzheimer’s disease, and in driving forward human model-based drug discovery platforms.

Academic Profile 

Scopus  | Orcid  | Google Scholar

Education 

Dr. Boyce holds a Ph.D. in Science (Medicine – Endocrinology) from the Federal University of São Paulo, Brazil (2016), where she focused on molecular endocrinology and neuroscience. She earned a Master of Science in Human Physiology from the University of São Paulo (2010), deepening her expertise in physiological processes relevant to brain function and disorders. Her academic journey began with a Bachelor’s degree in Biological Science from Mackenzie Presbyterian University, Brazil (2007). Throughout her education, she developed skills in molecular biology, stem cell culture, and animal modeling, setting a solid foundation for her later research in neurodevelopmental and neurodegenerative disease modeling using stem cell technologies and organoids.

Experience

Currently, Dr. Boyce serves as an Assistant Project Scientist at UC San Diego, leading research on neural organoids and stem cell models since 2022. She collaborates on project design, trains students and technicians, and secures funding while acting as a junior principal investigator. From 2019 to 2022, she was a Postdoctoral Research Scientist at UC San Diego, mentoring lab personnel in stem cell culture. Earlier, she worked in Brazil at the Federal University of São Paulo and Hospital Israelita Albert Einstein, focusing on thyroid hormone effects in Alzheimer’s models and autism spectrum disorders. Her roles involved extensive collaboration, protocol development, and participation in national and international scientific meetings, highlighting her ability to manage complex neuroscience projects and train the next generation of researchers.

Awards and Honors

Dr. Boyce has received several notable recognitions throughout her career. She earned an Honorable Mention at the Encontro Brasileiro de Tiróide in 2016 for her contributions to thyroid and neuroscience research. Her doctoral studies were supported by a prestigious PhD Fellowship from the Brazilian Ministry of Education and Research from 2012 to 2016, recognizing her academic excellence and research potential. In 2009, she was awarded another Honorable Mention at the XXIV Reunião da Federação das Sociedades de Biologia Experimental. These accolades highlight her consistent dedication to scientific inquiry and impact in endocrinology and neuroscience. Additionally, she holds memberships in respected professional organizations, including the American Thyroid Association (ATA) and Sociedade Brasileira de Fisiologia (SBFIS), reflecting her active engagement with the scientific community.

Research Focus

Dr. Boyce’s research centers on using human induced pluripotent stem cells (iPSCs) and brain organoids to model neurodevelopmental and neurodegenerative diseases, such as Pitt-Hopkins syndrome, Rett syndrome, and Alzheimer’s disease. She develops cortical, hindbrain, and thalamic organoids and cerebral assembloids to mimic brain structure and function, providing platforms for studying disease mechanisms and drug discovery. Her work combines molecular biology, cell culture, microscopy, and assay optimization to investigate cellular phenotypes and neural circuitry alterations. Dr. Boyce also explores thyroid hormone regulation’s role in brain development and pathology, linking endocrine factors to neurological outcomes. Her multidisciplinary approach leverages both 2D and 3D neural cultures, advanced imaging, and statistical analysis, aiming to uncover new therapeutic targets and deepen understanding of CNS diseases. She emphasizes translational applications to accelerate the development of effective treatments.

Notable Publications

Embryonic origin of two ASD subtypes of social symptom severity: the larger the brain cortical organoid size, the more severe the social symptoms

  • Authors: Courchesne E, Taluja V, Nazari S, Aamodt CM, Pierce K, Duan K, Stophaeros S, Lopez L, Barnes CC, Troxel J, Campbell K, Wang T, Hoekzema K, Eichler EE, Nani JV, Pontes W, Sanchez SS, Lombardo MV, de Souza JS, Hayashi MAF, Muotri AR
    Journal: Molecular Autism
    Year: 2024

Loss of GTF2I promotes neuronal apoptosis and synaptic reduction in human cellular models of neurodevelopment

  • Authors: Adams JW, Vinokur A, de Souza JS, Austria C, Guerra BS, Herai RH, Wahlin KJ, Muotri AR
    Journal: Cell Reports
    Year: 2024

Thyroid hormone biosynthesis and its role in brain development and maintenance

  • Authors: de Souza JS
    Journal: Advances in Protein Chemistry and Structural Biology
    Year: 2023

Thyroid dysfunction alters gene expression of proteins related to iron homeostasis and metabolomics in male rats

  • Authors: da Conceição RR, Giannocco G, Herai RH, Petroski LP, Pereira BG, Oliveira KC, Chiamolera MI, Sato MA, Maciel RM, de Souza JS
    Journal: Molecular and Cellular Endocrinology
    Year: 2023

SARS-CoV-2 infects human brain organoids causing cell death and loss of synapses that can be rescued by treatment with Sofosbuvir

  • Authors: Mesci P*, de Souza JS*, Martin-Sancho L*, Macia A*, Saleh A, Yin X, Snethlage C, Adams JW, Avansini SH, Herai RH, Almenar-Queralt A, Pu Y, Szeto RA, Goldberg G, Bruck PT, Papes F, Chanda SK, Muotri AR
    (*These authors contributed equally)
    Journal: PLoS Biology
    Year: 2022

Conclusion

Dr. Janaina Sena Boyce, PhD stands out as a pioneering neuroscientist whose expertise bridges stem cell biology, neurodevelopmental modeling, and neurodegenerative research. Her innovative use of human iPSC-derived systems, including brain organoids and assembloids, positions her at the cutting edge of translational neuroscience. With a career marked by rigorous experimentation, high-impact publications, and a deep commitment to mentorship and collaboration, she contributes meaningfully to both scientific discovery and the cultivation of future scientific talent. Her trajectory reflects a balance of technical sophistication, intellectual curiosity, and strategic vision qualities that continue to shape the future of neuroscience research and therapeutic innovation. Dr. Boyce is not only advancing knowledge in her field but also building the platforms and partnerships necessary for impactful, human-centered science.

Yuling Zou | Biomedical Optical Engineering | Best Researcher Award

Dr. Yuling Zou | Biomedical Optical Engineering | Best Researcher Award

Dr. Yuling Zou, The Affiliated Eye Hospital, Jiangxi Medical College, Nanchang University, china

Dr. Yuling Zou is a distinguished Medical Doctor (M.D.), Associate Chief Physician, and Master’s Supervisor at The Affiliated Eye Hospital, Jiangxi Medical College, Nanchang University. With extensive contributions to ophthalmology research, innovation, and education, she is recognized as a leading expert in retinal diseases, particularly in ferroptosis mechanisms and diabetic eye complications.

Profile 

Scopus 

Early Academic Pursuits

Dr. Zou earned her Ph.D. in Ophthalmology from the renowned Sun Yat-sen University Ophthalmology Center, a leading institution in vision research. Her early training emphasized deep academic rigor, where she developed foundational expertise in ocular pathology, cellular mechanisms of retinal degeneration, and translational medicine, setting the stage for her impactful career.

Professional Endeavors

Currently serving as Associate Chief Physician at the Nanchang University Affiliated Eye Hospital, Dr. Zou also holds roles in multiple provincial research and clinical centers, including the Jiangxi Key Laboratory of Ophthalmology and Vision Sciences and the Jiangxi Clinical Research Center for Ophthalmic Disease. She plays key roles in several professional organizations, including as Vice Chair of the Jiangxi Research Hospital Association–Ophthalmology Branch and Committee Member of both the Jiangxi Medical Association-Ophthalmology Society and Jiangxi Health Commission Expert Committee.

Contributions and Research Focus

Dr. Zou’s research is centered on retinal diseases such as diabetic retinopathy and age-related macular degeneration, with a cutting-edge focus on ferroptosis — a form of programmed cell death. Her landmark project, “Berberine Inhibits High Glucose-Induced Ferroptosis in Retinal Vascular Endothelial Cells”, has opened new therapeutic avenues in ocular pharmacology. She has also contributed to the pharmacological applications of berberine in ocular health, showcasing her innovation at the interface of traditional compounds and modern medicine.

Impact and Influence

With over 10 SCI-indexed publications and more than 47 citations, Dr. Zou’s work has been recognized for its clinical and scientific relevance. Her 6 ophthalmic patents have directly improved surgical precision and outcomes, and her involvement in 7 national and provincial research projects demonstrates her leadership in pushing the frontiers of ophthalmology in China.

Academic Citations and Research Skills

Dr. Zou’s publications have gained traction for their rigorous methodologies and clinical relevance, often cited in the fields of retinal biology and pharmaceutical interventions. Her expertise includes advanced cellular imaging, biochemical analysis of oxidative stress pathways, and drug efficacy studies, particularly in the context of retinal vascular pathology.

Teaching Experience

As a Master’s Supervisor, Dr. Zou has mentored over 12 postgraduate students, guiding them through both clinical practice and research innovation. Her mentorship emphasizes evidence-based medicine, experimental design, and critical thinking, making her a respected educator within the academic community.

Awards and Honors

Dr. Zou’s excellence has been recognized through prestigious honors such as the Jiangxi Outstanding Youth Fund and the “Ganpo Jun Cai” Talent Award. These awards underscore her outstanding scientific innovation, regional leadership, and contributions to youth mentorship in medicine.

Legacy and Future Contributions

Looking forward, Dr. Zou aims to expand her research into international collaborations, enhance the clinical applicability of ferroptosis inhibitors, and further develop patented surgical innovations. With a commitment to bridging basic science and clinical solutions, she is poised to leave a lasting legacy in ophthalmic innovation and contribute significantly to global vision health.

Top Publications 

Intraocular fluid analysis-guided precision therapy in the treatment of acute retinal necrosis syndrome

  • Authors: Xiao Yu, Ziqing Mao, Yuling Zou, Yao Zhao, Huimin Fan, Teng Liu, Yiming Lei, Hua Zou, Zhipeng You

  • Journal: Scientific Reports

  • Year: 2025

Berberine inhibits high glucose-induced ferroptosis in retinal vascular endothelial cells: Mechanism and implications

  • Authors: Jia Chen, Wenxuan Peng, Wen Yang, Zhipeng You, Yuling Zou

  • Journal: Experimental Eye Research

  • Year: 2025