Narges Yaghoobi Nia | Optical Physics | Research Excellence Award

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Assoc. Prof. Dr. Narges Yaghoobi Nia | Optical Physics | Research Excellence Award

Iritaly Trading Company S.r.l. | Italy

Narges Yaghoobi Nia is a senior researcher in electronics engineering specializing in perovskite photovoltaics, thin-film solar technologies, and electrochemical energy systems for terrestrial and space applications. She is the founder of PVSPACE and PEROSPACE initiatives and has led multiple international research projects funded by European programs. Her expertise spans perovskite solar cells and modules, tandem photovoltaics, polymeric and electrochemical layers, and CO₂ conversion technologies. She has served as principal investigator, task leader, editor, and communication manager in major EU projects. She has authored over fifty scientific publications, several books and chapters, and holds multiple international patents.

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Shaoqi Zhan | Particle Physics | Research Excellence Award

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Dr. Shaoqi Zhan | Particle Physics | Research Excellence Award

Uppsala University | Sweden

Shaoqi Zhan is a researcher at Uppsala University with multidisciplinary training in computational chemistry, materials science, and machine learning. His research focuses on developing streamlined computational strategies and deep learning–based models to accelerate catalyst design and uncover reaction mechanisms under realistic conditions. He has published extensively in top-tier journals, with strong authorship contributions and a solid citation record. His work bridges theory and experiment through international collaborations across academia and industry, including catalyst synthesis and medicinal chemistry. His contributions advance sustainable chemistry by integrating multiscale modeling, AI, and materials innovation.

 

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Dongbo Wang | Optical Physics | Research Excellence Award

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Prof. Dongbo Wang | Optical Physics | Research Excellence Award 

Harbin Institute of Technology | China

Dongbo Wang, Ph.D. is a Research Professor and Doctoral Supervisor in the School of Materials Science and Engineering at Harbin Institute of Technology (HIT), China. He received his Ph.D. in Materials Science from HIT, following an M.S. degree in Materials Physics and Chemistry  from the same institution, and a B.S. degree in Materials Science from Changchun University of Science and Technology. He has continuously served at HIT, progressing from Assistant Research Professor to Associate Research Professor, and attaining a tenured Research Professorship. Dr. Wang’s research lies at the interdisciplinary frontier of materials physics and optoelectronic engineering, with a strong focus on the design, controlled synthesis, and functional integration of low-dimensional semiconductor materials. His work covers two-dimensional bismuth chalcogenides, topological insulators, oxide heterostructures, and III–V superlattice systems. A central theme of his research is band-structure engineering and defect physics to enable high-specificity photodetectors operating across an exceptionally broad spectral range, from ultraviolet (UV) to long-wavelength infrared (LWIR). In recent years, Dr. Wang has made significant contributions to self-powered photodetectors, optoelectronic synaptic devices, and imaging systems, achieving ultra-high dynamic range and sub-femtojoule-level energy consumption. His work also extends to photothermal–photocatalytic coupling strategies for sustainable hydrogen evolution, addressing critical challenges in clean energy conversion. These advances bridge fundamental materials science with next-generation intelligent optoelectronic technologies.

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Md Atiqur Rahman | Biocomposites | Best Researcher Award

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Dr. Md Atiqur Rahman | Biocomposites | Best Researcher Award

University of Bolton, United Kingdom

Dr. Md Atiqur Rahman holds a PhD in Sustainable Biocomposites for Engineering from the University of Greater Manchester and a BEng (Hons) in Aerospace Engineering from the University of Hertfordshire. He is an experienced engineering academic with extensive teaching, assessment, and curriculum development expertise across UK and international institutions. His roles include Engineering and Aeronautical Engineering Lecturer positions, delivering programs aligned with university, Pearson BTEC, City & Guilds, and EAL standards. He has strong capabilities in student engagement, feedback-driven module design, quality assurance, and accreditation processes. His technical expertise spans MATLAB, materials characterization, composite manufacturing, and aerodynamics experimentation. He is actively involved in professional training, conferences, and internal verification, ensuring high standards in engineering education and learner progression.

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Feijiu Wang | Optical Physics | Research Excellence Award

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Prof. Dr. Feijiu Wang | Optical Physics | Research Excellence Award

School of Future Technology | China

Professor Feijiu Wang is an internationally recognized researcher in the fields of photovoltaic materials, perovskite optoelectronics, nanocarbons, and low-dimensional semiconductor devices. He is currently a Professor at the Henan Key Laboratory of Photovoltaic Materials, Henan University, a position he has held since May 2019, and was promoted to full Professor in May 2023. His research integrates materials science, energy science, and nano-optoelectronics with a strong emphasis on device performance, stability, and interfacial engineering. Prof. Wang received his Ph.D. in Energy Science from Kyoto University, Japan, where he developed a strong foundation in photovoltaic physics and nanomaterials. Prior to this, he earned his M.E. from Shanghai Normal University and B.E. from Huaiyin Normal University. Following his doctorate, he conducted postdoctoral research at Nagoya University under the prestigious JST ERATO Itami Molecular Nanocarbon Project, where he deepened his expertise in nanocarbon materials and their integration into advanced electronic and energy devices. His research focuses primarily on perovskite solar cells and light-emitting diodes (LEDs), carbon nanotube– and graphene-based photovoltaics, two-dimensional semiconductors, and interface and defect engineering. He has made seminal contributions to improving the efficiency and long-term stability of perovskite solar cells through innovative interfacial layers, all-carbon charge transport layers, and polymer-assisted engineering strategies. In parallel, his recent work on perovskite LEDs and light-emitting field-effect transistors has achieved state-of-the-art external quantum efficiencies, addressing key challenges such as phase purity, defect passivation, and charge balance.

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Dr. Jianfeng Wang | Molecular Physics | Research Excellence Award | 4779

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Dr. Jianfeng Wang | Molecular Physics | Research Excellence Award

Institute of Analysis and Testing, Beijing Academy of Science and Technology (Beijing Center for Physical & Chemical Analysis) | China

Dr. Jianfeng Wang’s work centers on advanced analytical science, with particular emphasis on non-targeted analysis, metabolomics, and the development of intelligent sample pretreatment equipment. Research activities include significant involvement in major national research and development initiatives related to quality infrastructure systems, international science and technology cooperation, and large-scale applied science programs. Additional contributions have been made through projects supported by regional scientific research foundations. Scholarly output is substantial, with more than thirty peer-reviewed publications demonstrating consistent research productivity and academic impact. Innovation achievements include several authorized patents, highlighting strong capability in transforming scientific research into practical technologies. Contributions to academic knowledge are further reflected through co-authorship of two scholarly books. Beyond research and publication, Dr. Jianfeng Wang has played an active role in scientific standardization, contributing to the development of multiple national and group standards. Overall, this body of work reflects an effective integration of fundamental research, technological innovation, and applied standard development within analytical and chemical sciences.

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Yifeng Hu | Solid-State Physics | Research Excellence Award

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Prof. Yifeng Hu | Solid-State Physics | Research Excellence Award

Jiangsu University of Technology | China

Solid-State Physics is a professor and master’s supervisor specializing in information functional materials and thin-film devices, with a doctoral background in information functional materials and devices. Research focuses on phase-change materials, nano-multilayer thin films, superlattice-like structures, and flexible memory devices. He has led multiple national and provincial research projects, including several funded by the National Natural Science Foundation of China, and has secured over 1.5 million RMB in industry-supported horizontal projects. His work has resulted in extensive publications in high-impact international journals such as npj Flexible Electronics, Applied Physics Letters, IEEE Electron Device Letters, and Journal of Alloys and Compounds. He holds more than 20 authorized Chinese invention patents related to phase-change materials and memory technologies. In teaching, he delivers core physics and materials courses and has guided graduate and undergraduate students to numerous provincial and national innovation awards. His contributions have been recognized through multiple scientific research, teaching, and talent-development honors.

 

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Dr. Wenqi Huang | Atomic Physics | Research Excellence Award | 4792

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Dr. Wenqi Huang | Atomic Physics | Research Excellence Award

Beijing Information Science and Technology University | China

Dr. Wenqi Huang is an associate professor in applied science with a Ph.D. background in microelectronics and solid-state electronics. His research centers on first-principles and theoretical studies of electronic, optical, and mechanical properties of advanced semiconductor and functional materials. His main interests include group-IV alloys such as GeSn, SiGeSn, and GePb, two-dimensional materials, and perovskite systems. He has conducted extensive investigations on band structure engineering, optical gain, luminescence regulation, piezoelectric behavior, and surface acoustic wave properties. By employing density functional theory and related computational methods, his work reveals how strain, alloy composition, doping, and reduced dimensionality can effectively tune material performance. These studies provide valuable theoretical guidance for the design of optoelectronic and microelectronic devices. His research成果 have been published in well-established journals in physics, materials science, and applied physics, demonstrating consistent contributions to theoretical materials modeling and semiconductor physics.

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Marriam Zaqa | Condensed Matter Physics | Research Excellence Award

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Ms. Marriam Zaqa | Condensed Matter Physics | Research Excellence Award

Yangzhou University | China

Marriam Zaqa is a dedicated Ph.D. student and scientific researcher with extensive expertise in particle physics, condensed matter physics, and materials science. She specializes in investigating the properties, interactions, and behaviors of subatomic particles, as well as exploring condensed state phenomena such as superconductivity, magnetism, and topological materials. Marriam is experienced in experimental characterization, quantum transport in nanostructures, particle detector development, and high-energy physics experiments. She is proficient in conducting rigorous research, including literature review, data collection, material synthesis, analysis, and interpretation using advanced methodologies and statistical tools. In addition to her research, Marriam possesses strong content writing experience for diverse academic and professional audiences. She has published multiple research articles and book chapters, reflecting her commitment to advancing scientific knowledge. Marriam combines technical expertise with effective communication skills to contribute meaningfully to scientific communities and interdisciplinary projects.

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Yi Shen | Atomic Physics | Research Excellence Award

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Prof. Dr. Yi Shen | Atomic Physics | Research Excellence Award

Zhejiang University of Technology | China

Prof. Dr. Yi Shen’s research focuses on the design, synthesis, and application of nanomaterials for environmental and energy-related challenges. Key areas include atomic-level engineering of covalent organic and triazine frameworks for adsorption, catalysis, and pollutant degradation, as well as fuel and energy conversion. Her work emphasizes understanding the fundamental mechanisms of electron and spin behavior, interstitial electrons, and defect structures to enhance catalytic efficiency and selectivity. Applications cover photocatalytic and electrocatalytic processes, water remediation, CO₂ reduction, H₂O₂ production, and polymerization-assisted pollutant removal. By integrating experimental synthesis with mechanistic insights, she develops highly efficient, sunlight-driven, and flow-based catalytic systems for environmental remediation and energy conversion. Supported by major national and provincial science foundations, Prof. Dr. Yi Shen has published extensively in high-impact journals, contributing significantly to both the fundamental understanding and practical application of advanced nanomaterials in environmental and energy technologies.

 


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