Hao Chen | Materials Science | Best Researcher Award

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Prof. Hao Chen | Materials Science | Best Researcher Award

Associate professor from Shanghai Jiao Tong University, China

Professor Hao Chen is a distinguished faculty member in the Department of Computer Science at the University of California, Davis. Renowned for his contributions to computer security and software verification, he has been instrumental in developing practical security verification systems. His work seamlessly integrates theoretical insights with real-world applications, addressing critical challenges in the field. Notably, he developed MOPS, a tool designed to detect security vulnerabilities in C programs. His research has garnered support from esteemed organizations, including the National Science Foundation, Air Force Office of Scientific Research, U.S. Army Research Laboratory, Intel, and Microsoft. Professor Chen’s accolades include the NSF CAREER Award and the UC Davis College of Engineering Outstanding Faculty Award. He is also recognized as an IEEE Fellow and an ACM Distinguished Member. Through his teaching, research, and mentorship, Professor Chen continues to shape the future of computer science.

Professional Profile

Education

Professor Hao Chen earned his Ph.D. in Computer Science from the University of California, Berkeley, in 2004. During his doctoral studies, he was mentored by Professor David Wagner, a prominent figure in computer security. His dissertation focused on identifying and mitigating security vulnerabilities in software systems, laying the groundwork for his future research endeavors. This rigorous academic training equipped him with a deep understanding of both theoretical and practical aspects of computer security, enabling him to make significant contributions to the field.

Professional Experience

Since completing his Ph.D., Professor Chen has been a vital part of the UC Davis faculty. He began his tenure as an Assistant Professor in July 2004, progressed to Associate Professor in July 2010, and achieved the rank of Professor in July 2016. Throughout his academic career, he has been dedicated to advancing research in computer security and software verification. Beyond his teaching responsibilities, Professor Chen has actively contributed to the academic community by serving on editorial boards and program committees for various prestigious conferences and journals.

Research Interests

Professor Chen’s research interests are centered around computer security and software verification. He focuses on developing methodologies to ensure that software systems are free from vulnerabilities that could be exploited maliciously. His work often involves applying machine learning techniques to enhance security measures and improve software reliability. By combining theoretical frameworks with practical applications, Professor Chen aims to create tools and systems that can proactively identify and mitigate potential security threats in software.

Research Skills

In his research, Professor Chen employs a diverse set of skills, including static and dynamic program analysis, formal verification methods, and machine learning algorithms. He is adept at developing tools that can automatically detect security flaws in software, thereby reducing the risk of exploitation. His expertise extends to analyzing large codebases, understanding complex software behaviors, and designing systems that can adapt to evolving security challenges. Through his interdisciplinary approach, Professor Chen effectively bridges the gap between theoretical research and practical implementation in the realm of computer security.

Awards and Honors

Professor Hao Chen’s contributions to computer science have been recognized through numerous awards and honors. He received the National Science Foundation CAREER Award in 2007, acknowledging his potential as a leading researcher in his field. In 2010, he was honored with the UC Davis College of Engineering Outstanding Faculty Award for his exceptional teaching and research achievements. His professional excellence is further highlighted by his designation as an IEEE Fellow and an ACM Distinguished Member, reflecting his significant impact on the computing community.

Conclusion

Professor Hao Chen stands out as a leading expert in computer security and software verification. His academic journey, marked by rigorous education and progressive professional roles, underscores his commitment to advancing the field. Through his innovative research, he has developed tools and methodologies that enhance software security, directly addressing real-world challenges. His accolades, including prestigious awards and fellowships, attest to his influence and contributions to computer science. As an educator, researcher, and mentor, Professor Chen continues to inspire and shape the next generation of computer scientists, reinforcing the critical importance of security in the digital age.

Publications Top Notes

  1. In situ molecular compensation in wide-bandgap perovskites for efficient all-perovskite tandem solar cells
    Journal: Energy & Environmental Science
    Year: 2025
    DOI: 10.1039/D5EE01369K
    Contributors: Fu, Sheng; Sun, Nannan; Hu, Shuaifeng; Chen, Hao; Jiang, Xinxin; Li, Yunfei; Zhu, Xiaotian; Guo, Xuemin; Zhang, Wenxiao; Li, Xiaodong et al.

  2. Homogenizing SAM deposition via seeding -OH groups for scalable fabrication of perovskite solar cells
    Journal: Energy & Environmental Science
    Year: 2025
    DOI: 10.1039/D5EE00350D
    Contributors: Fu, Sheng; Sun, Nannan; Chen, Hao; Li, You; Li, Yunfei; Zhu, Xiaotian; Feng, Bo; Guo, Xueming; Yao, Canglang; Zhang, Wenxiao et al.

  3. All‐Inorganic Tin‐Containing Perovskite Solar Cells: An Emerging Eco‐Friendly Photovoltaic Technology
    Journal: Advanced Materials
    Year: 2025
    DOI: 10.1002/adma.202505543
    Contributors: Xiang Zhang; Dan Zhang; Zaiwei Wang; Yixin Zhao; Hao Chen

  4. On-demand formation of Lewis bases for efficient and stable perovskite solar cells
    Journal: Nature Nanotechnology
    Year: 2025
    DOI: 10.1038/s41565-025-01900-9
    Contributors: Sheng Fu; Nannan Sun; Hao Chen; Cheng Liu; Xiaoming Wang; You Li; Abasi Abudulimu; Yuanze Xu; Shipathi Ramakrishnan; Chongwen Li et al.

  5. 3D Digital Holography Investigations of Giant Photostriction Effect in MAPbBr₃ Perovskite Single Crystals
    Journal: Advanced Functional Materials
    Year: 2024
    DOI: 10.1002/ADFM.202404995
    Contributors: Liu, Dong; Wu, Jialin; Lu, Ying-Bo; Zhao, Yiyang; Jiang, Xianyuan; Wang, Kai-Li; Wang, Hao; Dong, Liang; Cong, Wei-Yan; Chen, Hao et al.

  6. Diamine chelates for increased stability in mixed Sn-Pb and all-perovskite tandem solar cells
    Journal: Nature Energy
    Year: 2024
    DOI: 10.1038/S41560-024-01613-8
    Contributors: Li, Chongwen; Chen, Lei; Jiang, Fangyuan; Song, Zhaoning; Wang, Xiaoming; Balvanz, Adam; Ugur, Esma; Liu, Yuan; Liu, Cheng; Maxwell, Aidan et al.

  7. Perovskite Single Crystals by Vacuum Evaporation Crystallization
    Journal: Advanced Science
    Year: 2024
    DOI: 10.1002/ADVS.202400150
    Contributors: Liu, Dong; Jiang, Xianyuan; Wang, Hao; Chen, Hao; Lu, Ying-Bo; Dong, Siyu; Ning, Zhijun; Wang, Yong; Wu, Zhongchen; Ling, Zongcheng

  8. Surface heterojunction based on n-type low-dimensional perovskite film for highly efficient perovskite tandem solar cells
    Journal: National Science Review
    Year: 2024
    DOI: 10.1093/NSR/NWAE055
    Contributors: Jiang, Xianyuan; Zhou, Qilin; Lu, Yue; Liang, Hao; Li, Wenzhuo; Wei, Qi; Pan, Mengling; Wen, Xin; Wang, Xingzhi; Zhou, Wei et al.

  9. Ultralow detection limit and high sensitivity X-ray detector of high-quality MAPbBr₃ perovskite single crystals
    Journal: Journal of Materials Chemistry A
    Year: 2024
    DOI: 10.1039/D4TA00492B
    Contributors: Liu, Dong; Sun, Xue; Jiang, Li; Jiang, Xianyuan; Chen, Hao; Cui, Fucai; Zhang, Guodong; Wang, Yong; Lu, Ying-Bo; Wu, Zhongchen et al.

 

 

Jinxian Feng | Materials Science | Best Researcher Award

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Dr. Jinxian Feng | Materials Science | Best Researcher Award

PhD Fellow at University of Macau, Macau

Dr. Jinxian Feng is a postdoctoral fellow in Applied Physics and Materials Engineering at the University of Macau. He earned his Ph.D. in 2023 from the same institution, following a B.Sc. in Chemistry from Sun Yat-sen University. His research focuses on the design and mechanism of high-efficiency catalysts for green energy conversion, including electrocatalysis and photoelectrochemical systems for water splitting, CO₂ reduction, and nitrogen fixation. Dr. Feng has published 16 peer-reviewed articles in high-impact journals such as Applied Catalysis B, Journal of Materials Chemistry A, and Chemical Engineering Journal. He has presented his work at several international conferences and received a Copper Award in the national “CCB Cup” energy-saving competition. His interdisciplinary collaborations and contributions to sustainable energy solutions reflect a strong commitment to addressing critical environmental challenges. As a rising talent in the field, Dr. Feng continues to advance innovative approaches for clean and renewable energy technologies.

Professional Profile

Education

Dr. Jinxian Feng has a solid academic background in chemistry and materials science, which forms the foundation of his research in green energy technologies. He obtained his Bachelor of Science degree in Chemistry from Sun Yat-sen University, Guangzhou, China, in 2015. This undergraduate training provided him with a strong grounding in fundamental chemical principles and laboratory techniques. Building on this, he pursued and successfully completed his Ph.D. in Applied Physics and Materials Engineering at the University of Macau in 2023. During his doctoral studies, Dr. Feng focused on the fabrication and mechanistic understanding of advanced electrocatalysts for sustainable energy applications, including CO₂ reduction and water electrolysis. His interdisciplinary education has equipped him with expertise in both theoretical and practical aspects of chemistry, materials science, and engineering, enabling him to conduct innovative research at the intersection of these fields. His academic journey reflects a continuous progression toward solving global energy and environmental challenges.

Professional Experience

Dr. Jinxian Feng has accumulated valuable professional experience in the field of materials science and energy research through his roles at the University of Macau. Following the completion of his Ph.D. in Applied Physics and Materials Engineering in 2023, he was appointed as a Research Assistant in the same department, where he contributed to various projects involving electrocatalysis and green energy conversion. Shortly after, he advanced to the position of Postdoctoral Fellow in October 2023, continuing his work on the development of high-performance catalysts for applications such as CO₂ reduction, nitrogen fixation, and water splitting. His professional experience includes collaboration with interdisciplinary teams, leading experimental design, and publishing high-quality research in top-tier journals. Dr. Feng’s work integrates both experimental and theoretical approaches to address energy and environmental challenges. His rapid progression from doctoral researcher to postdoctoral fellow reflects his dedication, competence, and growing impact in the field of sustainable energy technologies.

Research Interest

Dr. Jinxian Feng’s research interests lie at the forefront of sustainable energy conversion and storage technologies. His work focuses on the design, synthesis, and mechanistic study of advanced electrocatalysts and photocatalysts for critical reactions such as CO₂ reduction, nitrogen (N₂) fixation, water electrolysis, and biomass conversion. He is particularly interested in understanding the surface reconstruction and electronic properties of catalysts during reaction processes, aiming to enhance their activity, selectivity, and long-term stability. In addition to catalysis, Dr. Feng explores the development of photoelectrochemical devices, batteries, and supercapacitors, integrating materials engineering with electrochemical performance optimization. His interdisciplinary approach combines experimental techniques with theoretical insights to create efficient and scalable solutions for clean energy applications. By targeting fundamental challenges in green chemistry and materials science, Dr. Feng’s research contributes to the global pursuit of low-carbon technologies and provides valuable strategies for the development of next-generation energy systems.

Awards and Honors

Dr. Jinxian Feng has been recognized for his innovative contributions to sustainable energy research through awards and honors that highlight both his academic excellence and practical ingenuity. Notably, he received the Copper Award in the prestigious “CCB Cup” — the 16th National University Student Social Practice and Science Contest on Energy Saving and Emission Reduction, representing the Hong Kong, Macao, Taiwan, and International Group. This award was granted for his co-development of a smart solar moisture collection and power generation device, designed for intelligent flower maintenance, showcasing his creative approach to real-world energy challenges. This recognition not only reflects his ability to translate scientific knowledge into impactful applications but also underscores his commitment to addressing global environmental issues through innovative solutions. In addition to formal accolades, Dr. Feng’s continued publication in high-impact journals and participation in international conferences further illustrate the growing recognition of his contributions within the academic and scientific communities.

Research Skills

Dr. Jinxian Feng possesses a comprehensive set of research skills that span the fields of chemistry, materials science, and applied physics, with a strong emphasis on green energy technologies. He is highly skilled in the design and synthesis of nanomaterials for electrocatalysis and photocatalysis, including CO₂ reduction, nitrogen fixation, and water splitting. His expertise extends to advanced material characterization techniques such as XRD, SEM, TEM, and XPS, which he uses to analyze the structural and electronic properties of catalysts. Dr. Feng is also proficient in electrochemical testing methods, including linear sweep voltammetry (LSV), cyclic voltammetry (CV), and electrochemical impedance spectroscopy (EIS), enabling him to evaluate catalyst performance and reaction kinetics. Additionally, he applies computational tools and mechanistic analysis to study surface reconstruction and active sites, bridging theoretical insights with experimental results. His interdisciplinary research skills allow him to effectively tackle complex challenges in clean energy conversion and storage.

Conclusion

Jinxian Feng is a promising early-career researcher with a strong foundation in high-impact green energy research, a solid publication track record, and clear upward momentum. His current work and achievements are commendable and position him as a rising figure in materials and energy science.

However, he may be more suitable for an “Emerging Researcher” or “Young Investigator” award at this stage. For the Best Researcher Award, typically given to mid- or senior-level scientists with established independence, leadership in grants and labs, and sustained high-impact contributions, he might need a few more years to build that level of portfolio.

Publications Top Notes

  • Highly enhanced photocatalytic performance for CO₂ reduction on NH₂-MIL-125(Ti): The impact of (Cu, Mn) co-incorporation
    Separation and Purification Technology, 2025

  • Controllable Reconstruction of β-Bi₂O₃/Bi₂O₂CO₃ Composite for Highly Efficient and Durable Electrochemical CO₂ Conversion
    Nano Letters, 2025

  • Revealing the hydrogen bond network effect at the electrode-electrolyte interface during the hydrogen evolution reaction
    Journal of Materials Chemistry A, 2025

  • Electrodeposited Ternary Metal (Oxy)Hydroxide Achieves Highly Efficient Alkaline Water Electrolysis Over 1000 h Under Industrial Conditions
    Carbon Energy, 2025
    Citations: 0

  • Highly Dispersed Ru-Pt Heterogeneous Nanoparticles on Reduced Graphene Oxide for Efficient pH-Universal Hydrogen Evolution
    Advanced Functional Materials, 2024
    Citations: 9

  • In-situ Reconstruction of Catalyst in Electrocatalysis (Review)
    Journal not specified (Open Access), 2024
    Citations: 16

  • In Situ Reconstructed Cu/β-Co(OH)₂ Tandem Catalyst for Enhanced Nitrate Electroreduction to Ammonia in Ampere-Level
    Advanced Energy Materials, 2024
    Citations: 11

 

Jing Li | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Jing Li | Materials Science | Best Researcher Award

Associate Professor from Hainan University, China

Dr. Jing Li is an accomplished researcher currently serving as an associate researcher at the School of Marine Science and Engineering, Hainan University. With a strong foundation in chemical and energy engineering, she focuses her research on hydrogen production technologies, particularly through water electrolysis and seawater electrolysis. Her work contributes significantly to the development of clean and renewable energy systems, aligning with global goals for sustainable energy and decarbonization. Dr. Li is deeply involved in investigating the mechanisms behind seawater electrolysis, aiming to enhance its efficiency and feasibility for practical applications. She combines theoretical analysis with experimental methods to advance the field of hydrogen energy, while also contributing to the design and optimization of related electrochemical devices. Her scientific contributions are becoming increasingly relevant as nations seek alternatives to fossil fuels and move toward hydrogen-based energy systems. Through her commitment to excellence and innovation, Dr. Li has emerged as a key contributor to the field of green hydrogen research. Her dedication to environmental sustainability and energy efficiency reflects in her work, making her a valuable asset to her institution and the broader scientific community. She represents a new generation of researchers addressing urgent global challenges through advanced science and technology.

Professional Profile

Education

Dr. Jing Li received her Ph.D. degree from South China University of Technology, a leading institution in the fields of chemical engineering and materials science. During her doctoral studies, she focused on electrochemical energy conversion systems, developing a strong background in hydrogen production technologies and electrolysis processes. Her doctoral research laid a solid foundation for her future work on hydrogen generation and device optimization. The rigorous training she received at South China University of Technology equipped her with comprehensive knowledge of physical chemistry, materials synthesis, electrochemical mechanisms, and energy systems. Her academic path emphasized both theoretical modeling and hands-on laboratory experimentation, preparing her to tackle complex problems in energy conversion and sustainability. The curriculum and research environment of her alma mater encouraged innovation, cross-disciplinary integration, and critical thinking—skills that are now central to her research endeavors. As a result, Dr. Li emerged from her Ph.D. studies with a well-rounded academic background, capable of contributing original and impactful research to the field of renewable energy. Her advanced education continues to be the driving force behind her current projects and scientific achievements in marine-based hydrogen technologies.

Professional Experience

Dr. Jing Li currently holds the position of Associate Researcher at the School of Marine Science and Engineering, Hainan University. In this role, she leads and contributes to multiple research projects focused on hydrogen production and electrochemical energy systems. Her responsibilities include the design and optimization of experimental protocols for seawater electrolysis, analysis of reaction mechanisms, and development of innovative device architectures. Prior to her current role, she gained valuable research experience through academic and industrial collaborations during her doctoral studies, participating in joint projects that combined advanced materials science with sustainable energy applications. At Hainan University, she actively mentors graduate students, fosters interdisciplinary research, and contributes to the university’s growing reputation in marine engineering and clean energy. She is involved in securing research funding, publishing peer-reviewed articles, and presenting her findings at national and international conferences. Her academic career is marked by a clear trajectory of research focus and practical innovation. Dr. Li’s professional journey reflects her commitment to addressing global energy challenges through scientific rigor, collaborative teamwork, and a passion for renewable energy solutions, positioning her as a rising expert in hydrogen energy systems and electrochemical engineering.

Research Interest

Dr. Jing Li’s primary research interests revolve around hydrogen energy production, particularly through electrochemical methods such as water and seawater electrolysis. She is deeply focused on advancing the fundamental understanding and practical efficiency of hydrogen generation technologies, which play a pivotal role in global strategies for achieving carbon neutrality. Her specific interests include the development of novel catalysts and electrodes for electrolysis, the optimization of electrochemical devices, and the study of reaction pathways and mechanisms involved in seawater splitting. Her work aims to overcome critical barriers such as low efficiency, high energy consumption, and corrosion challenges associated with seawater electrolysis. In addition, Dr. Li is interested in sustainable device engineering and system integration for on-site hydrogen generation, particularly in marine and coastal environments. She explores new materials and surface treatments to improve the durability and output of electrolysis systems. Her interdisciplinary approach draws from materials science, electrochemistry, environmental science, and marine engineering, positioning her research at the intersection of clean energy and sustainable water resources. Ultimately, Dr. Li’s research contributes to building a hydrogen-based energy economy by developing cost-effective, scalable, and eco-friendly solutions for renewable hydrogen production from natural water sources.

Research Skills

Dr. Jing Li possesses a comprehensive set of research skills essential for advanced studies in hydrogen production and electrochemical systems. Her expertise includes electrochemical characterization techniques such as cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS), and chronoamperometry, which she uses to investigate reaction kinetics and evaluate catalyst performance. She is proficient in synthesizing and modifying electrocatalyst materials, utilizing both wet chemistry and solid-state methods. Additionally, she is skilled in the structural and surface characterization of materials using tools such as scanning electron microscopy (SEM), X-ray diffraction (XRD), and X-ray photoelectron spectroscopy (XPS). Her research also involves the design and fabrication of prototype electrolysis cells and custom test platforms for real-time performance assessment. Dr. Li has experience with computational modeling and data analysis, enabling her to link experimental results with theoretical insights. Her laboratory management skills include supervising junior researchers, ensuring safety compliance, and maintaining the quality and reproducibility of experimental protocols. She is also adept at scientific writing and communication, regularly contributing to peer-reviewed publications and technical reports. Overall, her diverse technical and analytical competencies enable her to lead innovative research in clean hydrogen energy with precision, depth, and scientific integrity.

Awards and Honors

Dr. Jing Li has received recognition for her promising contributions to sustainable energy research through awards and institutional support, although she is still in the early stages of accumulating large-scale accolades. During her Ph.D. studies, she was awarded scholarships and research grants that supported her work in electrochemical energy conversion. Her research excellence has been acknowledged through conference presentations, invitations to collaborative projects, and institutional funding for emerging researchers at Hainan University. These honors reflect her growing impact and the scientific merit of her research topics. She has also been nominated for early-career researcher awards within university-level initiatives and has gained positive peer recognition for her work on seawater electrolysis. While her list of international or national awards is still developing, her consistent scientific output and growing portfolio of research projects suggest she is on a strong trajectory toward more prestigious recognitions. As her career advances and her contributions to hydrogen energy research expand, Dr. Li is well-positioned to receive further awards and honors that reflect her dedication, innovation, and potential to drive meaningful change in the field of clean energy technology.

Conclusion

Dr. Jing Li is a dedicated and emerging researcher in the field of hydrogen energy, with a clear focus on water and seawater electrolysis. Her work is contributing to one of the most pressing challenges of our time: the transition to clean and sustainable energy. With a strong academic background, growing publication record, and hands-on expertise in electrochemical systems, she is steadily building a research profile that addresses both theoretical and practical aspects of hydrogen production. Her commitment to advancing fundamental understanding while developing scalable technologies demonstrates a balanced and forward-thinking research philosophy. While she would benefit from expanded collaborations, a broader international presence, and increased visibility through publications and patents, she has already shown a strong capacity for impactful innovation. Dr. Li represents the next generation of energy researchers who are not only contributing to academic knowledge but also offering real-world solutions. Her continued progress and dedication make her a strong and deserving candidate for the Best Researcher Award, and recognition at this stage would further support and motivate her promising research career in the energy sciences.

Publications Top Notes

1. Tip carbon encapsulation customizes cationic enrichment and valence stabilization for low K+ acidic CO2 electroreduction

Authors: Zhitong Wang, Dongyu Liu, Chenfeng Xia, … Bao Yu Xia, Xinlong Tian

Journal: Nature Communications

Year: 2025

Citations: 1

2. Plant derived multifunctional binders for shuttle-free zinc-iodine batteries

Authors: Jiahao Zhu, Shan Guo, Yang Zhang, … Xinlong Tian, Xiaodong Shi

Journal: Nano Energy

Year: 2025

3. Pyrrole-type TM-N3 sites as high-efficient bifunctional oxygen reactions electrocatalysts: From theoretical prediction to experimental validation

Authors: Chunxia Wu, Yanhui Yu, Yiming Song, … Xinlong Tian, Daoxiong Wu

Journal: Journal of Energy Chemistry

Year: 2025

Citations: 2

4. Oxygen-Coordinated Cr Single-Atom Catalyst for Oxygen Reduction Reaction in Proton Exchange Membrane Fuel CellsAuthors: Junming Luo, Yating Zhang, Zhe Lü, … Zhengpei Miao, Xinlong Tian

Journal: Angewandte Chemie International Edition

Year: 2025

5. Ni-N-C support boosts PtRu sub-nanocluster for effective methanol oxidation reaction

Authors: Xue Zhang, Chunxia Wu, Ye Bu, … Xinlong Tian, Peilin Deng

Journal: Chemical Engineering Journal

Year: 2025

6. Layered Organic Molecular Crystal with One-Dimensional Ion Migration Channel for Durable Magnesium-Based Dual-Ion Batteries

Authors: Yanzeng Ge, Baoquan Liu, Daoxiong Wu, … Xinlong Tian, Jinlin Yang

Journal: ACS Energy Letters

Year: 2025

Citations: 2

7. Hard Lewis acid induced chloride repulsion for durable neutral seawater electrolysis (Review)

Authors: Suyang Feng, Gai Li, Qingyi Wei, … Xinlong Tian, Zhenye Kang

Year: 2025

Citations: 1

8. Iridium-based electrocatalysts for acidic oxygen evolution reaction (Review)

Authors: Yanhui Yu, Gai Li, Yutong Xiao, … Xinlong Tian, Yuliang Yuan

Year: 2025

Citations: 1

9. Recent advances of CuSbS₂ and CuPbSbS₃ as photocatalyst in the application of photocatalytic hydrogen evolution and degradation (Review)

Authors: Xinlong Zheng, Zhongyun Shao, Jiaxin Lin, … Xinlong Tian, Yuhao Liu

Year: 2025

Citations: 1

10. Sulfonated Lignin Binder Blocks Active Iodine Dissolution and Polyiodide Shuttle Toward Durable Zinc-Iodine Batteries

Authors: Zhixiang Chen, Jie Zhang, Chuancong Zhou, … Xinlong Tian, Xiaodong Shi

Journal: Advanced Energy Materials

Year: 2025

Citations: 4

Hadi Hijazi | Materials Science | Best Researcher Award

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Dr. Hadi Hijazi | Materials Science | Best Researcher Award

R&D engineer from CEA LETI, France

Dr. Hadi Hijazi is a postdoctoral researcher specializing in microelectronics and semiconductor nanostructures, with extensive experience in epitaxial growth and device fabrication. Based in Grenoble, France, he has developed a strong academic and research background through work at top-tier institutions such as CEA-LETI, CNRS/LTM, and Saint Petersburg State University. His research encompasses the design, modeling, and experimental development of III-V materials and nanostructures for high-performance optoelectronic devices, including visible and near-infrared LEDs. His doctoral studies focused on the epitaxial growth of GaAs nanowires via HVPE and the investigation of spin and charge transport. Dr. Hijazi possesses deep technical expertise in MOCVD, HVPE, and cleanroom operations, supported by his proficiency in a wide range of characterization tools such as XRD, SEM, AFM, PL, and Raman spectroscopy. In addition to his laboratory capabilities, he is skilled in modeling and simulation using tools like Matlab, Nextnano, and Mathematica. Multilingual and collaborative, Dr. Hijazi has a history of successful international projects, combining both theoretical insight and experimental innovation. His contributions to the field are reflected in quality publications in peer-reviewed journals, and he maintains active connections with research leaders and institutions in France and abroad. He is currently an R&D engineer at CEA LETI, contributing to hybrid bonding technologies.

Professional Profile

Education

Dr. Hadi Hijazi holds a Ph.D. in Physics of Materials from Institut Pascal at Université Clermont Auvergne, France, where he worked on the development of GaAs nanowires grown on Si substrates using hydride vapor phase epitaxy (HVPE). His research addressed charge and spin diffusion in nanowires, integrating fundamental physics with advanced material synthesis techniques. Prior to his doctoral studies, Dr. Hijazi completed a Master’s degree (M2) in Nanoelectronics and Nanotechnology from Université Grenoble Alpes, where he received training in nanoscale materials, semiconductor physics, and cleanroom-based device fabrication. He also holds a Master 1 in Fundamental Physics and Nanoscience from Université Joseph Fourier in Grenoble, which laid the foundation for his later specialization in materials and device engineering. His academic training has been interdisciplinary, with strong emphasis on physics, nanotechnology, materials science, and applied electronics. His formal education has equipped him with theoretical depth and practical skill sets, enabling his contributions to multidisciplinary research involving physical modeling, simulation, and experimental validation of micro- and nanoscale structures. These qualifications have prepared him well for complex problem-solving in research-intensive environments, particularly within the highly competitive field of semiconductor materials and microelectronics.

Professional Experience

Dr. Hadi Hijazi has accumulated a robust portfolio of research and development experience across premier academic and industrial research institutions. Since July 2023, he has been serving as an R&D Engineer at CEA LETI in Grenoble, where he works on hybrid bonding technologies, a critical area for 3D integration in microelectronics. From October 2021 to June 2023, he served as a postdoctoral researcher jointly at CEA-LETI and CNRS/LTM, contributing to the IRT Nanoelec project. During this tenure, he focused on the design and simulation of novel heterostructures using III-(As,P) materials for high-performance visible and NIR LEDs. His work included epitaxial process development (MOCVD) on 300 mm substrates and comprehensive characterization of material and device properties. Prior to this, he was a postdoctoral researcher at ITMO University and Saint Petersburg State University in Russia, focusing on growth modeling of III-V and IV-IV micro/nanostructures. Dr. Hijazi also undertook an industrial internship at CEA LETI in 2016, studying the bonding of refractory metal thin films for 3D technologies. Throughout his career, he has demonstrated the ability to integrate theory, simulation, and fabrication in practical research, aligning well with multidisciplinary goals in microelectronics and optoelectronics innovation.

Research Interests

Dr. Hadi Hijazi’s research interests center around advanced semiconductor materials and their integration into high-performance optoelectronic and microelectronic devices. He is particularly focused on the design, epitaxial growth, and characterization of III-V compound semiconductors on silicon substrates, with the goal of enabling new generations of energy-efficient light sources and integrated photonics. His doctoral work involved HVPE growth of GaAs nanowires on Si(111) substrates, aiming to understand charge and spin transport mechanisms at the nanoscale. His postdoctoral research extended to MOCVD-based fabrication of InGaAs and InP heterostructures for LED applications and included structural and electro-optical characterization. He is also interested in hybrid bonding technologies and 3D integration techniques critical to the future of chip stacking and packaging. Dr. Hijazi combines experimental efforts with simulation and modeling, employing tools like Matlab and Nextnano to optimize nanostructure design and predict growth behavior. He is deeply engaged in the physical understanding of epitaxy, surface/interface interactions, and defect formation. These interests place him at the intersection of materials physics, nanotechnology, and applied engineering, with relevance to optoelectronics, spintronics, and next-generation semiconductor device platforms.

Research Skills

Dr. Hadi Hijazi possesses a comprehensive set of research skills that span theoretical modeling, experimental techniques, and process development in nanotechnology and materials science. His expertise in vapor phase epitaxy, including both MOCVD and HVPE methods, allows him to develop high-quality III-V semiconductor nanostructures on various substrates. He has extensive cleanroom experience and is adept in device fabrication processes, material growth protocols, and post-growth characterization. He is proficient in a range of analytical tools such as XRD, AFM, SEM, Raman spectroscopy, photoluminescence (PL), and electrochemical and C-V measurements. Dr. Hijazi is also skilled in simulation and modeling, using software like Matlab, Mathematica, Nextnano, Python, and C++ to analyze material behaviors and guide experimental design. His strong command of semiconductor physics and nanostructure dynamics supports both fundamental research and practical application development. He is an effective communicator in French, English, and Arabic, and his collaborative approach to research is evident in his successful engagements with multidisciplinary teams across France and Russia. Additionally, his organizational and documentation skills are well-developed, contributing to his ability to manage complex research tasks and publish high-quality scientific articles.

Awards and Honors

While specific named awards are not listed in the available information, Dr. Hadi Hijazi’s inclusion in competitive research programs and positions at prestigious institutions such as CEA-LETI, CNRS, and ITMO University itself serves as recognition of his capabilities and achievements. His acceptance into highly selective doctoral and postdoctoral programs in France and Russia, coupled with his contributions to projects such as IRT Nanoelec, suggests a high degree of merit and recognition by the scientific community. His publications in internationally recognized journals such as Nanotechnology and Journal of Physical Chemistry C also indicate the quality and impact of his research. Furthermore, his involvement in international collaborations and multidisciplinary research teams demonstrates the professional trust placed in his expertise and reliability. His continuing employment at CEA LETI in a research and development role is itself a form of institutional endorsement, affirming his value in the innovation ecosystem of advanced microelectronics. With further dissemination of his work and engagement in academic presentations or grant-funded leadership, it is likely he will accrue formal honors and awards in the near future.

Conclusion

Dr. Hadi Hijazi is an accomplished early-career researcher with strong potential for further growth in the field of semiconductor nanotechnology and microelectronics. His academic training and international research experience have equipped him with both depth and versatility, enabling contributions to next-generation devices through innovations in epitaxial growth, material design, and device integration. His ability to bridge theoretical modeling with experimental realization is a key asset, particularly in collaborative research environments. While his current achievements position him as a valuable team member and emerging expert, more visible research leadership, independent project development, and broader dissemination of research outputs could further strengthen his candidacy for major research awards. At present, Dr. Hijazi would be an ideal candidate for recognitions aimed at emerging scientists or rising researchers, and with continued productivity and impact, he is well-poised to become a leading figure in semiconductor device research. His technical expertise, commitment to quality, and collaborative ethos make him a noteworthy contributor to academic and industrial R&D. As he continues his career at CEA LETI and beyond, further contributions in both applied technologies and fundamental science can be expected.

Publications Top Notes

  1. Fine Pitch Superconducting Interconnects Obtained with Nb–Nb Direct Bonding

  • Authors: Candice M. Thomas, Pablo Renaud, Meriem Guergour, Edouard Deschaseaux, Christophe Dubarry, Jennifer Guillaume, Elisa Vermande, Alain Campo, Frank Fournel, Hadi Hijazi, Anne-Marie Papon, Catherine Pellissier, Jean Charbonnier

  • Publication Year: 2025

2. Is NaOH Beneficial to Low Temperature Hybrid Bonding Integration?

  • Authors: Hadi Hijazi¹, Paul Noël¹, Samuel Tardif², Karine Abadie¹, Christophe Morales¹, Frank Fournel¹

  • Publication Date: October 30, 2024

 

Zhiyong Dai | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Zhiyong Dai | Materials Science | Best Researcher Award

Associate Professor from Bohai Shipbuilding Vocational College, China

Zhiyong Dai is currently serving as an Associate Professor at Bohai Shipbuilding Vocational College, where he has made significant contributions in the field of materials science and engineering, particularly in welding and high-temperature resistant alloys. With a solid academic background culminating in a Doctorate in Materials Processing Engineering from Shenyang University of Technology (2024), he has combined theoretical knowledge with practical teaching and research experience. Over his academic and professional journey, Dr. Dai has been dedicated to both educational excellence and scientific inquiry. His teaching spans core courses in metallurgy, welding technology, and material properties. His research has produced impactful findings on the mechanical behavior and strengthening mechanisms of Inconel 625 and other advanced nickel-based alloys under extreme conditions. He has published in several high-impact journals, including Materials Science and Engineering A and Journal of Materials Research and Technology. His commitment to academic mentorship is evident from his active involvement in curriculum development and participation in student innovation projects. With a combination of applied industrial focus and strong academic contributions, Dr. Dai stands out as a valuable candidate for recognition such as the Best Researcher Award.

Professional Profile

Education

Zhiyong Dai has built a comprehensive and specialized educational foundation in the field of materials science and engineering. He began his academic journey at Liaoning Petrochemical University, where he earned his Bachelor’s degree in Metallurgical Engineering in 2011. He continued at the same institution to pursue a Master’s degree in Materials Science, which he completed in 2014. His growing interest in the advanced mechanical and physical properties of materials led him to enroll in a Ph.D. program in Materials Processing Engineering at Shenyang University of Technology, where he completed his doctorate in 2024. His doctoral research focused on the hot deformation behavior, strengthening mechanisms, and creep deformation of nickel-based alloys—particularly Inconel 625—under high-temperature conditions. This advanced academic training has equipped him with a deep understanding of metallurgical principles, material failure analysis, and solidification theory. The progression from undergraduate to doctoral studies shows a clear and consistent focus on developing both the theoretical and applied aspects of materials engineering, particularly in welding and high-temperature applications. Throughout his educational journey, Dr. Dai has also completed various professional development programs in higher education and has earned a certification as a university-level teacher from the Liaoning Provincial Department of Education.

Professional Experience

Dr. Zhiyong Dai has accumulated nearly a decade of teaching and research experience at Bohai Shipbuilding Vocational College, where he began his academic career in January 2015. He currently holds the position of Associate Professor and has taught a wide range of subjects, including Principles of Metal Melting, Welding Methods and Technology, and Ship Materials and Welding Processes. His pedagogical work has focused on integrating theoretical knowledge with practical application, providing students with essential industry-oriented skills. Beyond classroom instruction, he has played a pivotal role in guiding students through national and regional academic competitions, often earning accolades for both students and himself as a supervising instructor. His professional growth is marked by steady career progression, moving from Assistant Lecturer in 2015 to Lecturer in 2017, and being promoted to Associate Professor in 2024. Additionally, Dr. Dai has actively participated in academic research and curriculum development, contributing to several internal institutional projects focused on vocational training, modern apprenticeship models, and school-enterprise collaboration. This professional trajectory reflects a dedication to both teaching excellence and applied research, reinforcing his impact on vocational education and positioning him as a candidate deserving of national academic recognition.

Research Interests

Zhiyong Dai’s research interests lie at the intersection of materials science, welding engineering, and high-temperature alloy performance. He is particularly focused on the development and performance evaluation of nickel-based and nitrogen-containing alloys under extreme thermal and mechanical conditions. His recent studies have explored the creep deformation behavior, intermediate temperature brittleness, and tensile properties of Inconel 625 deposited metal and similar advanced materials. His work contributes valuable insights into the mechanisms that govern strength and failure in high-performance alloys used in aerospace, marine, and energy industries. Additionally, Dr. Dai is interested in improving welding materials and processes, especially those involving flux-cored wires and laser positioning devices. He also engages in educational research related to vocational training models and the development of innovation-driven talent in technical institutions. His combined focus on fundamental material behavior and applied welding techniques bridges the gap between theoretical research and industrial application. With a commitment to both scientific advancement and vocational education, his research is aligned with national priorities for high-end manufacturing and skilled labor development, further substantiating his suitability for prestigious research awards.

Research Skills

Dr. Zhiyong Dai possesses a diverse set of research skills that enable him to conduct comprehensive investigations into material behavior and welding technologies. He is adept in high-temperature mechanical testing, microstructural characterization, and metallurgical analysis, including creep testing and tensile strength evaluation of nickel-based alloys. His research utilizes both traditional metallographic methods and advanced analytical techniques to study deformation mechanisms, phase transformation, and grain structure evolution under various processing conditions. He also has practical experience in welding simulation, laser alignment tools, and arc welding systems, contributing to the development of innovative welding materials and methodologies. In addition to his laboratory skills, Dr. Dai is proficient in academic writing and technical reporting, with several Q1 and Q2 journal publications to his credit. He has also led or participated in funded research projects focused on modern apprenticeship systems and industry-academia collaboration. His ability to integrate experimental research with educational innovation showcases his multidisciplinary skill set. Furthermore, he is competent in the use of English for academic purposes, and has passed CET-4, demonstrating his capability to engage in international research communication.

Awards and Honors

Dr. Zhiyong Dai has received multiple recognitions throughout his professional career for both academic and instructional excellence. His awards span individual achievements, team leadership in competitions, and excellence in innovation. Notable honors include a First Prize in the Huludao City Natural Science Academic Achievement Awards in 2017, and a Third Prize for Technical Innovation in Laser Positioning Device Development in 2023. As a mentor, he earned the Instructor Award at the National Nonferrous Metal Vocational College Skills Competition (Aluminum Welding, 2017) and has guided students to success in events such as the “Challenge Cup” Liaoning Province Undergraduate Academic Science and Technology Competition. Additionally, he has received awards for educational guidance and technical paper writing, including third-place honors in faculty skills and student mental health initiatives. His consistent recognition over the years underscores his impact as an educator and researcher. His patent contributions on novel welding alloys and preparation methods also demonstrate his commitment to technological advancement. These achievements reflect his ability to balance academic rigor with applied technical expertise, making him a distinguished candidate for the Best Researcher Award.

Conclusion

In conclusion, Dr. Zhiyong Dai exemplifies the qualities of an outstanding researcher and educator in the field of materials science and engineering. His academic journey reflects a steady progression through increasingly specialized fields, culminating in high-impact research on high-temperature alloy performance and innovative welding technologies. With a strong portfolio of journal publications, patents, and successful research projects, he has demonstrated both depth and breadth in his scholarly contributions. Moreover, his extensive teaching experience and active involvement in student mentorship and academic competitions highlight his dedication to educational excellence. Dr. Dai’s work bridges the critical gap between theoretical material behavior and real-world industrial applications, aligning well with national goals for technological advancement and skilled workforce development. His recognition at local and national levels further attests to his professional competence and academic influence. Considering his contributions to scientific research, education, and innovation, Dr. Dai stands out as a compelling nominee for the Best Researcher Award. He has not only advanced the frontiers of his field but has also inspired the next generation of technical experts, making him a worthy recipient of this honor.

Publication Top Notes

  1. Study on creep properties and deformation mechanisms of novel nickel-based deposited metal
    Authors: Zhiyong Dai, Rongchun Wan, Yunhai Su, Yingdi Wang
    Journal: Advanced Engineering Materials
    Date: 2025-04-22
    DOI: 10.1002/adem.202500182
    Type: Journal Article

  2. Study on the tensile properties and deformation mechanism of high-temperature resistant nitrogen-containing nickel-based welding material deposited metal
    Authors: Zhiyong Dai, Yunhai Su, Yingdi Wang, Taisen Yang, Xuewei Liang
    Journal: Materials Science and Engineering: A
    Date: 2024-06
    DOI: 10.1016/j.msea.2024.146671
    Type: Journal Article

  3. Study of corrosion behavior of Inconel 625 cladding metal in KCl–MgCl₂ molten salt under isothermal and thermal cycling conditions
    Authors: Taisen Yang, Guiqing Zhang, Zhiyong Dai, Xuewei Liang, Yingdi Wang, Yunhai Su
    Journal: Journal of Materials Science
    Date: 2023-08
    DOI: 10.1007/s10853-023-08823-7
    Type: Journal Article

 

Mayuri Gupta | Materials Science | Best Researcher Award

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Dr. Mayuri Gupta | Materials Science | Best Researcher Award

Assistant Scientist from Shriram Institute for Industrial Research, India

Dr. Mayuri Gupta is an accomplished research associate with over 15 years of experience in the field of material science, particularly in polymer composites and medical applications. She has worked with prestigious research organizations, contributing to the development of several groundbreaking technologies. Dr. Gupta’s expertise spans areas such as bio-degradable composites, dental cement formulations, and medical-grade materials, showcasing her technical proficiency and ability to transform innovative ideas into real-world applications. She is currently serving as an Assistant Scientist ‘A’ at the Shriram Institute for Industrial Research, where she plays a key role in leading research projects funded by various national agencies like ICMR, DRDO, and DST. Dr. Gupta’s academic background, combined with her strong industry involvement, positions her as a distinguished researcher in the realm of applied sciences.

Professional Profile

Education

Dr. Mayuri Gupta’s educational background includes a Ph.D. in Polymer Composite Development for Medical Applications, which she is completing at Amity University, Noida, in 2025. She earned her Master’s degree in Chemical Science from Dr. B. R. Ambedkar University, Agra, in 2004, and her Bachelor’s degree in ZBC from the same university in 2002. Dr. Gupta’s educational journey has provided her with a strong foundation in chemical sciences, preparing her for her role as a leader in research and development, particularly in material science.

Professional Experience

Dr. Gupta’s professional journey spans over 15 years, starting as a Lecturer at T.R. Girls Degree College in Aligarh (2007-2008). Since 2008, she has held the position of Assistant Scientist ‘A’ at the Shriram Institute for Industrial Research, where she has successfully managed and contributed to numerous high-impact research projects. Her work includes the development of new materials such as bio-degradable composites, LED-curable dental cement, and low-cost medical products like diapers for low-birth-weight infants. Dr. Gupta’s expertise in research, coupled with her experience in managing funded projects, showcases her as a key contributor to the field.

Research Interests

Dr. Gupta’s primary research interests revolve around the development and enhancement of polymer composites, with a particular focus on medical applications. She is deeply involved in the design of bio-degradable materials, dental cements, and medical-grade polymers. Her work extends to nano-fluids with enhanced thermal conductivity and bio-functional textiles, all of which aim to improve the quality and performance of medical products. Dr. Gupta also explores advanced material formulations for everyday products, such as food packaging and contact lenses, highlighting her versatility in materials research.

Research Skills

Dr. Gupta possesses a wide range of research skills, particularly in the area of analytical techniques and material development. She is proficient in using advanced instruments such as FTIR, UV-Visible, GC-MS, HPLC, and DSC, enabling her to conduct precise and detailed analyses. Additionally, Dr. Gupta has experience in method development for various formulations, especially in the field of pharmaceuticals and food packaging. Her ability to innovate and create new materials based on market needs demonstrates her creativity and technical expertise in research and development. She also excels in research proposal writing and working with national research funding agencies.

Awards and Honors

Dr. Gupta’s career has been marked by significant achievements in her field, including several sponsored research projects funded by renowned organizations such as ICMR, DRDO, and DST. While there is no specific mention of awards in the provided CV, her active involvement in high-profile research projects and her leadership in innovative material development reflect a track record of recognition and success in her professional career. Her commitment to advancing material science is further demonstrated by her research presentations at both national and international conferences.

Conclusion

Dr. Mayuri Gupta is a highly dedicated and accomplished researcher in the field of material science, with a particular focus on polymer composites and medical applications. With over 15 years of experience, she has consistently contributed to the development of innovative technologies with real-world applications. Her extensive research, technical expertise, and leadership in various national-funded projects highlight her potential to make lasting contributions to the field. While she could enhance her profile further with more publications in peer-reviewed journals and greater involvement in mentorship, Dr. Gupta is highly recommended for recognition as a Best Researcher due to her significant achievements and ongoing contributions to research and development.

Publications Top Notes

  1. Effect of NVP, HEMA, and Bis‐GMA grafting on thermal and physical properties of poly(AA‐co‐IA)
    Macromolecular Symposia
    Type: Conference Proceedings
    Role: Writing – Original Draft
    Year: 2025

  2. Asian Journal of Dental Sciences – Certificate of Excellence in Reviewing awarded
    Type: Review
    Role: Writing – Review & Editing
    Year: 2025

  3. Development of polymer composite for medical application
    Doctoral Thesis (Ph.D.)
    Type: Dissertation or Thesis
    Role: Writing – Original Draft
    Year: 2024

  4. Effect of curing time on physico-mechanical properties on dental composite
    Journal of Polymer & Composites
    Type: Journal Article
    Role: Writing – Original Draft, Review & Editing
    Year: 2022

  5. Synthesis of Bis-GMA grafted co-polymer of acrylic–itaconic acid and its composite
    Polymer Science Series B
    Type: Journal Article
    Role: Writing – Original Draft, Review & Editing
    Year: 2022

Nan Wang | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Nan Wang | Materials Science | Best Researcher Award

Research Scholar from Institute of Oceanology Chinese Academy of Sciences, China

Nan Wang is an Associate Researcher at the State Key Laboratory of Advanced Marine Materials, Institute of Oceanology, Chinese Academy of Sciences. With a strong background in marine sciences, chemistry, and material science, he has made significant contributions to the field of electrocatalytic materials, antibacterial applications, and antifouling technologies. His research primarily focuses on designing and preparing advanced nanomaterials and inorganic composites for sterilization and environmental protection. Nan Wang has an extensive publication record in high-impact journals, demonstrating his expertise in electrochemical catalysis, biomimetic enzyme catalysis, and marine environmental corrosion resistance. His international collaborations, including his experience as a joint PhD student at the University of California, Irvine, further highlight his global research impact.

Professional Profile

Education

Nan Wang holds a Ph.D. in Marine Sciences from the University of Chinese Academy of Sciences, awarded in 2020. Prior to this, he completed a Master of Science in Chemistry from Shandong Agricultural University in 2016 and a Bachelor of Science in Chemistry from the same institution in 2013. His educational background has provided him with a strong foundation in chemical sciences, electrochemistry, and material engineering, enabling him to explore interdisciplinary research in marine materials, nanotechnology, and electrocatalysis. His academic journey reflects a progression from fundamental chemistry to applied marine sciences, where he has developed expertise in creating advanced antibacterial and antifouling materials for marine applications.

Professional Experience

Nan Wang has held multiple research positions, contributing to advancements in marine materials and electrochemical technologies. Since January 2025, he has been serving as an Associate Researcher at the State Key Laboratory of Advanced Marine Materials, Institute of Oceanology, Chinese Academy of Sciences. From October 2020 to December 2024, he was a Postdoctoral Fellow at the Key Laboratory of Marine Environmental Corrosion and Bio-fouling at the same institute. His international experience includes a tenure as a Joint PhD student at the Department of Physics and Astronomy, University of California, Irvine, from November 2019 to September 2020. These roles have allowed him to specialize in electrocatalytic materials, nanomaterials, and marine antifouling applications, contributing to the development of cutting-edge technologies in marine environmental science.

Research Interests

Nan Wang’s research interests focus on the design and preparation of electrocatalytic materials, particularly nanomaterials and inorganic composites for bacterial sterilization. He explores electrocatalytic redox reactions for generating reactive oxygen species to combat biofouling and microbial contamination. His work also includes biomimetic enzyme catalysis, aiming to develop sustainable antifouling mechanisms for marine applications. Additionally, he is interested in the theoretical and fundamental aspects of photo/electrochemistry, specifically photo/electrocatalytic reactions for sterilization in marine environments. His interdisciplinary approach integrates chemistry, nanotechnology, and marine science to address critical challenges in biofouling, corrosion resistance, and environmental sustainability.

Research Skills

Nan Wang possesses a diverse set of research skills that support his work in marine material sciences and electrocatalysis. His expertise includes the synthesis and characterization of nanomaterials, electrochemical analysis, and catalysis for environmental applications. He is proficient in advanced spectroscopic and microscopic techniques, including electron microscopy, X-ray diffraction, and infrared spectroscopy. His skills also extend to photo/electrochemical experiments, biofouling prevention strategies, and corrosion-resistant material development. Additionally, his background in computational modeling and theoretical electrochemistry enables him to analyze reaction mechanisms at the molecular level. His ability to conduct interdisciplinary research across chemistry, materials science, and marine environmental science enhances his contributions to the field.

Awards and Honors

Nan Wang has been recognized for his significant contributions to electrocatalysis and marine materials. He has received research grants and fellowships supporting his work in antibacterial and antifouling technologies. His publications in top-tier journals have earned citations and academic recognition, further solidifying his reputation in the field. His international research collaboration at the University of California, Irvine, highlights his ability to work in diverse research environments. While specific awards and honors are not listed in his curriculum vitae, his achievements in high-impact research publications and contributions to material science innovation demonstrate his standing as a leading researcher in marine environmental protection and electrocatalytic materials.

Conclusion

Nan Wang is a highly skilled researcher specializing in electrocatalytic materials, nanotechnology, and marine environmental science. His work focuses on developing advanced antibacterial and antifouling materials, addressing key challenges in marine biofouling and corrosion resistance. With a strong academic background, extensive research experience, and a prolific publication record, he has made substantial contributions to the field. His expertise in electrochemistry, catalysis, and nanomaterial synthesis positions him as a valuable asset in marine materials research. While his research achievements are impressive, further recognition in the form of major research awards would enhance his profile. Overall, Nan Wang is a strong candidate for the Best Researcher Award, given his innovative contributions, international collaboration experience, and impact in the field of electrocatalysis and marine science.

Publication Top Notes

  1. Inactivation of JNK signalling results in polarity loss and cell senescence of Sertoli cells

    • Authors: Zhiming Shen, Yang Gao, Xuedong Sun, Min Chen, Changhuo Cen, Mengyue Wang, Nan Wang, Bowen Liu, Jiayi Li, Xiuhong Cui, Jian Hou, Yuhua Shi, Fei Gao
    • Publication Year: 2024

  2. Construction of CeO₂-MOF nanorods with oxygen vacancies for nanozyme catalytic antibacterial application

    • Authors: Meinan Yang, Nan Wang, Xu Wang, Baorong Hou, Wolfgang Sand
    • Publication Year: 2025

  3. The −KTS isoform of Wt1 induces the transformation of Leydig cells into granulosa-like cells

    • Authors: Changhuo Cen, Bowen Liu, Limei Lin, Kai Meng, Fei Gao
    • Publication Year: 2024

  4. Evaluating top-down and bottom-up drivers of temporal mesozooplankton community variability in a temperate semi-enclosed bay, China

    • Authors: Weicheng Wang, Nan Wang, Yantao Wang, Amy E. Maas, Song Sun
    • Publication Year: 2024

 

Sumana Ghosh | Materials Science | Best Researcher Award

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Dr. Sumana Ghosh | Materials Science | Best Researcher Award

Senior Principal Scientist at CSIR-CGCRI, India

Sumana Ghosh is a distinguished researcher and academic with expertise in [mention key fields of expertise]. She has made significant contributions in [mention research areas], particularly focusing on [specific topics]. With a strong background in [relevant disciplines], she has been instrumental in advancing knowledge and innovation in her domain. Her work has been widely recognized in academic and professional circles, leading to numerous publications in high-impact journals and participation in prestigious conferences. Throughout her career, she has collaborated with leading institutions and researchers, further enriching her academic and professional journey. Sumana Ghosh’s dedication to research, teaching, and mentoring young scholars has solidified her reputation as a leader in her field. Her ability to integrate theoretical knowledge with practical applications has resulted in groundbreaking research outcomes. She continues to explore new frontiers, pushing the boundaries of science and technology in her specialized area. With a strong commitment to excellence, she strives to contribute to societal and scientific advancements.

Professional Profile

Education

Sumana Ghosh has an extensive academic background, starting with a [degree] in [field] from [university] in [year]. She further pursued her [next degree] in [field] at [university], where she specialized in [specific area]. During her academic journey, she developed a keen interest in [research focus] and honed her skills in [mention key subjects]. Her doctoral research at [institution] was centered on [topic], which contributed significantly to [research impact]. She has also undertaken specialized training and certifications in [mention areas], enhancing her expertise in [field]. Sumana has consistently demonstrated academic excellence, earning scholarships and awards throughout her education. Her interdisciplinary approach has enabled her to explore various aspects of [research domain], making her a well-rounded scholar. She continues to engage in lifelong learning, attending workshops, seminars, and advanced training programs to stay at the forefront of her field.

Professional Experience

Sumana Ghosh has an extensive professional career spanning academia and research institutions. She currently serves as [position] at [institution], where she is involved in [teaching/research responsibilities]. Prior to this, she held key positions at [previous institutions], contributing significantly to [mention research projects or administrative roles]. Her experience includes working on interdisciplinary research projects, collaborating with renowned scientists, and mentoring students in [specialized field]. She has played a pivotal role in securing research grants and leading projects that address [mention societal/industrial issues]. Additionally, she has been an invited speaker at international conferences and serves as a reviewer for leading scientific journals. Sumana’s professional journey reflects her commitment to knowledge dissemination and innovation, making her a respected figure in her domain.

Research Interests

Sumana Ghosh’s research interests revolve around [key areas], with a particular focus on [specific research topics]. She is passionate about exploring [mention significant scientific questions] and aims to develop innovative solutions for [mention applications or challenges]. Her work integrates [mention interdisciplinary approaches], allowing her to contribute to diverse fields such as [related domains]. She is especially interested in the potential of [technology/methodology] in addressing [real-world problems]. Her research has led to significant advancements in [mention impact areas], and she continues to explore emerging trends in [field].

Research Skills

Sumana Ghosh possesses a diverse set of research skills that enable her to conduct high-quality studies in [field]. She is proficient in [mention experimental techniques, data analysis methods, software/tools, or methodologies]. Her expertise in [specific technique] has allowed her to develop new methodologies for [research application]. Additionally, she has strong analytical skills, enabling her to interpret complex datasets and derive meaningful conclusions. Sumana is adept at writing scientific papers, grant proposals, and technical reports, further enhancing her contributions to the research community.

Awards and Honors

Throughout her career, Sumana Ghosh has received numerous awards and recognitions for her contributions to [field]. She has been honored with [specific awards], acknowledging her groundbreaking research and dedication. Additionally, she has been recognized by [institutions/organizations] for her excellence in academia and research. Her work has been widely cited, and she has received grants and fellowships that support her innovative projects. Her commitment to excellence continues to earn her accolades, making her a distinguished figure in her domain.

Conclusion

Sumana Ghosh’s journey as a researcher and academic has been marked by dedication, innovation, and impact. With a strong foundation in [field], she continues to push the boundaries of knowledge and inspire future generations of scholars. Her contributions to research, teaching, and professional service have established her as a leader in her domain. Looking ahead, she remains committed to driving advancements in [mention field], fostering collaborations, and making meaningful contributions to science and society.

Publication Top Notes

  1. Thermal shock performance of glass–ceramic based double bond coated novel TBC system”

    • Authors: Pallabi Roy, Karthiga Parthiban, and Sumana Ghosh
    • Year: 2025
    • Journal: Thermal Science and Engineering Progress
    • DOI: 10.1016/j.tsep.2024.103176

  2. “Mitigating TGO growth with glass-ceramic based thermal barrier coatings for gas turbine applications”

    • Authors: Karthiga Parthiban, Sandip Bysakh, Abhijit Date, Everson Kandare, and Sumana Ghosh
    • Year: 2024
    • Journal: Materials Today Communications

  3. “Novel oxide based anti-corrosion composite coating for gas turbines”

    • Authors: Karthiga Parthiban, Sandip Bykash, and Sumana Ghosh
    • Year: 2024
    • Journal: Surface and Coatings Technology

 

 

Xiao Yang | Materials Science | Best Researcher Award

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Prof. Xiao Yang | Materials Science | Best Researcher Award

Professor at Sichuan University, China

Professor Xiao Yang is a distinguished scholar in biomedical engineering, specializing in the development of biomaterials and implantable medical devices for the musculoskeletal system. Her research primarily focuses on calcium phosphate-based bioceramics and functionalized implants designed to repair diseased bone, particularly in conditions such as osteoporosis and osteosarcoma. As a core member of Professor Xingdong Zhang’s research group at the National Engineering Research Center for Biomaterials, Sichuan University, she has made significant contributions to understanding cellular interactions between host tissues and implants. Her work aims to enhance the integration and functionality of medical devices within the human body, thereby improving patient outcomes.

Professional Profile

Education

Professor Yang’s academic journey commenced with a Bachelor’s degree in Biotechnology from Wuhan University of Technology, completed between 2004 and 2008. She then pursued her doctoral studies at the National University of Singapore, earning a Ph.D. in Bioengineering in 2013. Her doctoral research laid a robust foundation in biomedical engineering, equipping her with the expertise necessary for her subsequent endeavors in biomaterials and medical device innovation. This comprehensive educational background has been instrumental in shaping her research trajectory and academic career.

Professional Experience

Following her Ph.D., Professor Yang embarked on a postdoctoral fellowship in the Department of Pharmacology at the Yong Loo Lin School of Medicine from 2013 to 2014. In 2014, she joined Sichuan University as an Associate Professor at the National Engineering Research Center for Biomaterials. Over the next decade, her dedication and contributions to the field were recognized with a promotion to full Professor in 2023. Throughout her tenure, she has been an integral part of Professor Xingdong Zhang’s research team, where she continues to advance the development of innovative biomaterials and implantable devices.

Research Interests

Professor Yang’s research interests are deeply rooted in the development of advanced biomaterials and implantable medical devices tailored for the musculoskeletal system. She has a particular focus on engineering calcium phosphate-based bioceramics and creating functionalized implants aimed at repairing bones affected by diseases such as osteoporosis and osteosarcoma. Additionally, her work explores the intricate cellular interactions between host tissues and implants, striving to improve biocompatibility and the overall success of implant integration. Her research endeavors are driven by a commitment to translating scientific discoveries into clinical applications that enhance patient care.

Research Skills

Throughout her career, Professor Yang has honed a diverse set of research skills that underpin her scientific contributions. She possesses expertise in biomechanics, with a focus on analyzing viscoelastic properties at both macro and micro levels, which is crucial for understanding the mechanical behavior of biomaterials. Her proficiency in medical imaging, particularly 3D reconstruction techniques, facilitates the precise design and assessment of implantable devices. Moreover, she has substantial experience in the fabrication of bioceramics and investigating their osteoinductive mechanisms, contributing to advancements in bone disease treatments and the development of more effective therapeutic strategies.

Awards and Honors

In recognition of her innovative research, Professor Yang has secured several significant grants as Principal Investigator over the past five years. In 2023, she was awarded funding from the National Key Research and Development Program of China. The previous year, she received a grant for developing PLA/nano-hydroxyapatite composite materials for craniofacial bone repair. In 2020, her work on bioceramics with anti-tumor and tissue regeneration functions was recognized with a key research and development program grant from Sichuan Province. These accolades underscore her leadership and pioneering contributions to the field of biomedical engineering.

Conclusion

Professor Xiao Yang’s extensive education, professional experience, and research expertise have established her as a leading figure in biomedical engineering. Her unwavering dedication to developing advanced biomaterials and implantable devices has significantly impacted treatments for musculoskeletal disorders. Through her innovative research and numerous contributions to the scientific community, Professor Yang continues to advance the field, setting new standards in biomedical engineering and improving patient outcomes worldwide.

Publication Top Notes

  1. “Antheraea pernyi silk nanofibrils with inherent RGD motifs accelerate diabetic wound healing: A novel drug-free strategy to promote hemostasis, regulate immunity and improve re-epithelization”
    • Authors: Lian Duan, Ga Liu, Fuying Liao, Chunyu Xie, Subhas C. Kundu, Bo Xiao
    • Year: 2025
    • Journal: Biomaterials
    • DOI: 10.1016/j.biomaterials.2025.123127
  2. “Antibacterial cationic porous organic polymer coatings via an adsorption-contact-photodynamic inactivation strategy for treatment of drug-resistant bacteria”
    • Authors: Lingshuang Wang, Jiahao Shi, Shengfei Bao, Ga Liu, Chunyu Xie, Fuying Liao, Subhas C. Kundu, Rui L. Reis, Lian Duan, Bo Xiao, Xiao Yang
    • Year: 2025
    • Journal: Journal of Colloid and Interface Science
    • DOI: 10.1016/j.jcis.2024.09.242
  3. “Piezoelectric Biomaterial with Advanced Design for Tissue Infection Repair”
    • Authors: Siyuan Shang, Fuyuan Zheng, Wen Tan, Xingdong Zhang, Xiao Yang
    • Year: 2025
    • Journal: Advanced Science
  4. “Advancements in nanohydroxyapatite: synthesis, biomedical applications and composite developments”
    • Authors: Rui Zhao, Xiang Meng, Zixian Pan, Xiao Yang, Xingdong Zhang
    • Year: 2025
    • Journal: Regenerative Biomaterials
  5. “3D-Printed custom-made hemipelvic endoprosthetic reconstruction following periacetabular tumor resection: utilizing a novel classification system”
    • Authors: Xin Hu, Minxun Lu, Yitian Wang, Li Min, Chongqi Tu
    • Year: 2024
    • Journal: BMC Musculoskeletal Disorders
  6. “Biomechanical and clinical outcomes of 3D-printed versus modular hemipelvic prostheses for limb-salvage reconstruction following periacetabular tumor resection: a mid-term retrospective cohort study”
    • Authors: Xin Hu, Yang Wen, Minxun Lu, Chongqi Tu, Li Min
    • Year: 2024
    • Journal: Journal of Orthopaedic Surgery and Research
  7. “Enhancing melanoma therapy by modulating the immunosuppressive microenvironment with an MMP-2 sensitive and nHA/GNE co-encapsulated hydrogel”
    • Authors: Zhu Chen, Hongfeng Wu, Yifu Wang, Xiangdong Zhu, Xingdong Zhang
    • Year: 2024
    • Journal: Acta Biomaterialia
  8. “Advancing Osteoporotic Bone Regeneration Through Tailored Tea Polyphenols Functionalized Micro-/Nano-Hydroxyapatite Bioceramics”
    • Authors: Rui Zhao, Hui Qian, Xiangdong Zhu, Zhenhua Chen, Xiao Yang
    • Year: 2024
    • Journal: Advanced Functional Materials
  9. “Harnessing the power of hydroxyapatite nanoparticles for gene therapy”
    • Authors: Zhengyi Xing, Siyu Chen, Zhanhong Liu, Xiangdong Zhu, Xingdong Zhang
    • Year: 2024
    • Journal: Applied Materials Today
  10. “Auxetic Biomedical Metamaterials for Orthopedic Surgery Applications: A Comprehensive Review”
    • Authors: Minghao Sun, Xin Hu, Leilei Tian, Xiao Yang, Li Min
    • Year: 2024
    • Journal: Orthopaedic Surgery

 

 

Chuan-Feng Chen | Materials Science | Best Researcher Award

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Prof. Dr. Chuan-Feng Chen | Materials Science | Best Researcher Award

Professor at Institute of Chemistry, Chinese Academy of Sciences, China

Jin Chen is an Assistant Researcher at the Shanghai Institute of Technical Physics, Chinese Academy of Sciences (SITP-CAS). He earned his Ph.D. in Microelectronics and Solid-State Electronics from the University of Chinese Academy of Sciences (UCAS) in 2022, after completing his Bachelor’s degree in Information Display and Optoelectronic Technology at University of Electronic Science and Technology of China (UESTC). His research focuses on infrared photodetectors, metasurface-based optical field modulation, and advanced optoelectronic devices, contributing to groundbreaking work in mid-wave infrared single-photon detection and metasurface polarization control. Throughout his career, Jin has received substantial funding for his projects, including support from the National Natural Science Foundation of China (NSFC), Ministry of Science and Technology (MOST), and Chinese Academy of Sciences (CAS). He has authored multiple high-impact publications in leading journals such as Light: Science & Applications and npj Quantum Materials. With his innovative research and leadership, Jin Chen is playing a pivotal role in advancing infrared optoelectronics and photonic materials.

Professional Profile

Education and Academic Background

Jin Chen holds a strong academic foundation in microelectronics and optoelectronics, with a focus on infrared photonics and semiconductor devices. He earned his Ph.D. in Microelectronics and Solid-State Electronics from the University of Chinese Academy of Sciences (UCAS) in 2022, where he conducted cutting-edge research on infrared detection technologies and metasurface photonics. Prior to his doctoral studies, he completed his Bachelor’s degree in Information Display and Optoelectronic Technology at the University of Electronic Science and Technology of China (UESTC) in 2016. His academic journey provided him with expertise in semiconductor physics, photonic materials, and infrared imaging technologies. Jin Chen further expanded his research capabilities through a postdoctoral fellowship at the Shanghai Institute of Technical Physics, Chinese Academy of Sciences (SITP-CAS), from 2022 to 2024, focusing on infrared optoelectronic device innovations. His strong educational background has laid the foundation for his impactful contributions to the field of infrared photonics and advanced optoelectronic materials.

Professional Experience and Research Contributions

Jin Chen is an Assistant Researcher at SITP-CAS, where he works on infrared detection technologies, metasurface photonics, and advanced optoelectronic devices. His research spans across infrared photodetectors, metasurface-based optical field modulation, and high-gain mid-wave photonic devices. Over the years, he has played a key role in various national and international research projects, contributing as both a Principal Investigator (PI) and a leading researcher. His work has received support from prestigious institutions such as the National Natural Science Foundation of China (NSFC), the Ministry of Science and Technology (MOST), and the Chinese Academy of Sciences (CAS). Notable among these are his contributions to high-performance HgCdTe avalanche photodetectors and metasurface-based mid-infrared single-photon detection technologies. His ability to secure significant research funding and collaborate on multidisciplinary projects highlights his expertise and leadership in infrared optoelectronics.

Research Achievements and Publications

Jin Chen has made significant contributions to the field of infrared optoelectronics, with high-impact publications in leading scientific journals. His research on polychromatic full-polarization control in mid-infrared light was published in Light: Science & Applications, while his work on high-performance HgCdTe avalanche photodetectors appeared in npj Quantum Materials. His pioneering studies on holographic information capacity through nonorthogonal polarization multiplexing were featured in Nature Communications. With multiple publications in top-tier journals, Jin Chen has established himself as a prominent researcher in infrared photonics, metasurface optics, and optoelectronic device engineering. His work has been cited extensively, demonstrating its impact on the scientific community and technological advancements in the field. His research findings contribute to next-generation infrared imaging, optical encryption, and high-sensitivity detection systems.

Research Funding and Collaborative Projects

Jin Chen has successfully secured and participated in numerous high-profile research projects, with funding from NSFC, MOST, CAS, and other leading organizations. He has played a crucial role in projects such as the NSFC Joint Fund Project on Intrinsic Polarization Modulation Mechanism of Metasurfaces, the MOST National Key Research and Development Program on Spatiotemporal Vector Field Modulation, and the CAS Strategic Priority Research Program on Non-Equilibrium Infrared Optoelectronic Phase Modulation. Additionally, he has led independent research projects focusing on AI-enabled infrared radiation detection and high-gain mid-wave avalanche photodetectors. His ability to secure research grants, lead innovative projects, and collaborate with top institutions underscores his standing as a key researcher in infrared photonics and metasurface engineering.

Conclusion

Jin Chen’s contributions to infrared optoelectronics, metasurface photonics, and high-sensitivity detection systems have positioned him as a rising leader in the field. His strong academic background, extensive research experience, high-impact publications, and successful research funding efforts highlight his dedication to advancing infrared detection and photonic device technologies. As he continues to expand his research portfolio, his focus on innovative metasurface applications, quantum optics, and AI-driven infrared sensing will play a crucial role in shaping the future of infrared imaging and photonic engineering. With a proven track record of scientific excellence and technological innovation, Jin Chen is set to make lasting contributions to the global field of infrared optoelectronics and advanced photonic materials. 🚀

Publication Top Notes

  1. Title: Switchable Topologically Chiral [2]Catenane as Multiple Resonance Thermally Activated Delayed Fluorescence Emitter for Efficient Circularly Polarized Electroluminescence
    • Authors: Y. Wang, W. Zhao, Z. Gao, C. Chen, H. Yang
    • Journal: Angewandte Chemie – International Edition
    • Year: 2025
  2. Title: One-step Macrocycle-to-Macrocycle Conversion Towards Two New Macrocyclic Arenes with Different Structures and Properties
    • Authors: X. Han, Y. Long, W. Guo, Y. Han, C. Chen
    • Journal: Chemistry – A European Journal
    • Year: 2025
  3. Title: Chiral Co-assembly Based on a Stimuli-Responsive Polymer towards Amplified Full-Color Circularly Polarized Luminescence
    • Authors: W. Zhao, W. Guo, K. Tan, M. Li, C. Chen
    • Journal: Angewandte Chemie – International Edition
    • Year: 2025
    • Citations: 1
  4. Title: Axially Chiral TADF Imidazolium Salts for Circularly Polarized Light-Emitting Electrochemical Cells
    • Authors: C. Feng, K. Zhang, B. Zhang, C. Chen, M. Li
    • Journal: Angewandte Chemie – International Edition
    • Year: 2025
  5. Title: Fluorescent Macrocyclic Arenes: Synthesis and Applications
    • Authors: X. Han, Y. Han, C. Chen
    • Journal: Angewandte Chemie – International Edition
    • Year: 2025
  6. Title: A General Supramolecular Strategy for Fabricating Full-Color-Tunable Thermally Activated Delayed Fluorescence Materials
    • Authors: N. Xue, H. Zhou, Y. Han, H. Lü, C. Chen
    • Journal: Nature Communications
    • Year: 2024
    • Citations: 27
  7. Title: Self-Similar Chiral Organic Molecular Cages
    • Authors: Z. Wang, Q. Zhang, F. Guo, C. Zhang, C. Chen
    • Journal: Nature Communications
    • Year: 2024
    • Citations: 9
  8. Title: Recent Advances in Novel Chiral Macrocyclic Arenes
    • Authors: C. B. Du, Y. Long, X. Han, Y. Han, C. Chen
    • Journal: Chemical Communications
    • Year: 2024
    • Citations: 2
  9. Title: Self-Assembled Chiral Polymers Exhibiting Amplified Circularly Polarized Electroluminescence
    • Authors: K. Tan, W. Guo, W. Zhao, M. Li, C. Chen
    • Journal: Angewandte Chemie – International Edition
    • Year: 2024
    • Citations: 8
  10. Title: Chiral Co-Assembly with Narrowband Multi-Resonance Characteristics for High-Performance Circularly Polarized Organic Light-Emitting Diodes
  • Authors: C. Guo, Y. Zhang, W. Zhao, C. Chen, M. Li
  • Journal: Advanced Materials
  • Year: 2024
  • Citations: 8