Lei Wang | Material Chemistry | Best Researcher Award

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Prof. Lei Wang | Material Chemistry | Best Researcher Award

National-Level Young Talent at Heilongjiang University, China

Prof. Lei Wang is a distinguished researcher and a national-level young talent, serving as a doctoral advisor at Heilongjiang University. She specializes in electrode material construction and in-situ mechanisms in energy devices. Her research has led to significant advancements in energy storage and conversion technologies. With over 170 SCI papers published in prestigious journals such as J. Am. Chem. Soc., Angew. Chem. Int. Ed., and Adv. Mater., she has established herself as a leading figure in the field. Her work has been cited more than 13,000 times, with an H-index of 62, reflecting her research’s substantial influence. In addition to her academic contributions, Prof. Wang has secured over 50 authorized invention patents and has led more than ten national and provincial-level research projects. Her contributions have been recognized with multiple prestigious awards, including the First Prize of Science and Technology Invention of Heilongjiang Province. Through her groundbreaking research and dedication to innovation, she continues to push the boundaries of materials science, making significant contributions to both academia and industry.

Professional Profile

Education

Prof. Lei Wang received her Ph.D. in Physical Chemistry from Jilin University in 2013. Her doctoral research focused on advanced materials for energy applications, laying the foundation for her future work in electrode materials and in-situ mechanisms. She acquired a strong background in electrochemical analysis, materials characterization, and nanotechnology during her studies. Prior to her Ph.D., she completed her undergraduate and master’s studies with a specialization in chemistry, gaining extensive knowledge in physical and inorganic chemistry. Her academic journey has provided her with a robust understanding of materials science, catalysis, and energy storage systems. Throughout her education, she actively participated in research projects and collaborated with leading scientists, enhancing her expertise in the field. The rigorous training and exposure to cutting-edge research methodologies have significantly contributed to her ability to develop innovative energy materials. Her academic credentials and research excellence have positioned her as a leader in energy-related material science.

Professional Experience

Prof. Lei Wang is currently a doctoral advisor at Heilongjiang University, where she leads multiple research projects focusing on electrode material construction and in-situ mechanisms for energy devices. Over the years, she has built an impressive research portfolio, collaborating with national and international institutions. In addition to her academic role, she has successfully secured and managed over ten national and provincial-level research grants, contributing to advancements in battery technology and energy storage. Her professional experience includes mentoring Ph.D. students, overseeing laboratory operations, and developing innovative experimental methodologies. She has also worked closely with industrial partners, ensuring that her research has practical applications in sustainable energy solutions. Beyond her university role, she actively participates in scientific committees and serves as a reviewer for top-tier journals in chemistry and materials science. Her experience and leadership in both academia and applied research have established her as a key figure in the field.

Research Interests

Prof. Lei Wang’s primary research interests lie in the construction of advanced electrode materials and the exploration of in-situ mechanisms in energy storage and conversion devices. She focuses on developing high-performance materials for lithium-ion batteries, supercapacitors, and fuel cells, aiming to improve energy efficiency and durability. Her work integrates nanotechnology, electrochemistry, and materials science to design innovative solutions for renewable energy storage. Additionally, she is interested in real-time characterization techniques to understand the dynamic behavior of electrode materials during charge-discharge cycles. Her research extends to sustainable energy solutions, including the development of environmentally friendly materials for next-generation batteries. By combining fundamental research with practical applications, she strives to bridge the gap between scientific discovery and industrial implementation. Through interdisciplinary collaboration, she aims to address the growing energy demands and contribute to a greener and more efficient future.

Research Skills

Prof. Lei Wang possesses a diverse set of research skills that enable her to conduct high-impact studies in energy materials. She is highly proficient in advanced materials characterization techniques such as X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and X-ray photoelectron spectroscopy (XPS). Additionally, she has expertise in electrochemical analysis methods, including cyclic voltammetry, electrochemical impedance spectroscopy, and galvanostatic charge-discharge testing. Her ability to design and synthesize novel electrode materials has been instrumental in the development of next-generation energy storage systems. She is also skilled in in-situ and operando techniques, allowing real-time observation of material changes during electrochemical processes. Her extensive experience in data analysis, computational modeling, and scientific writing has contributed to her success in publishing high-quality research. These skills, combined with her strong leadership and project management abilities, have established her as a leading researcher in energy materials.

Awards and Honors

Prof. Lei Wang has received numerous prestigious awards in recognition of her outstanding contributions to science and technology. She was awarded the First Prize of Science and Technology Invention of Heilongjiang Province, highlighting her innovative research in electrode materials. Additionally, she received the Heilongjiang Province Youth May Fourth Medal and the Heilongjiang Province Youth Science and Technology Award, which recognize her significant achievements as a young scientist. Her research impact is further demonstrated by the inclusion of eleven of her papers in the ESI Top 1%, with two classified as hot topic papers. Beyond individual accolades, she has also contributed to major research projects funded at the national and provincial levels, securing competitive grants that support groundbreaking developments in energy materials. These awards and recognitions reflect her excellence in research, leadership in the scientific community, and commitment to advancing material science for energy applications.

Conclusion

Prof. Lei Wang is a highly accomplished researcher with a strong track record in energy materials and electrochemistry. Her extensive publication record, high citation impact, and numerous patents highlight her innovative contributions to the field. As a national-level young talent, she has demonstrated leadership in securing research funding and advancing battery technologies. Her ability to bridge fundamental research with industrial applications makes her an influential figure in energy storage science. While she has achieved significant milestones, expanding international collaborations and further integrating her patented technologies into commercial applications could enhance her global impact. Overall, Prof. Wang’s expertise, dedication, and research excellence make her a strong contender for prestigious research awards, solidifying her reputation as a leading scientist in energy materials.

Publication Top Notes

  1. Low-loading Pt anchored on molybdenum carbide-based polyhedral carbon skeleton for enhancing pH-universal hydrogen production

    • Authors: Zhuo Li, Peng Yu, Di Shen, Xinxin Zhang, Liang Zhang, Zhijian Liang, Baoluo Wang, Lei Wang
    • Year: 2024
    • Citations: 2
    • Journal: Chinese Chemical Letters
    • DOI: 10.1016/j.cclet.2024.109713

  2. Exploring the Enhanced Zinc Storage Performance of α-MnSe Polyhedral Microspheres and H+/Zn²⁺ Co-Insertion Mechanism

    • Authors: Ruyi Zhou, Wenping Zhong, Wenhao Chen, Zhongliang Hu, Liujiang Xi, Yujia Xie, Ruiying Tang, Yunxi Shi, Meiyan Wang, Lei Wang, Yirong Zhu
    • Year: 2024
    • Citations: 1
    • Journal: Small
    • DOI: 10.1002/smll.202406849

  3. Unlocking Superior Hydrogen Oxidation and CO Poisoning Resistance on Pt Enabled by Tungsten Nitride-Mediated Electronic Modulation

    • Authors: Bin Cai, Di Shen, Ying Xie, Lei Wang, Honggang Fu
    • Year: 2024
    • Citations: 5
    • Journal: Journal of the American Chemical Society
    • DOI: 10.1021/jacs.4c12345

  4. Ag Atom Induces Microstrain Environment around Cd Sites to Construct Diatomic Sites for Almost 100% CO₂-to-CO Electroreduction

    • Authors: Jiahui Hua, Zhongqin Dai, Kehao Cheng, Kai Dai, Lei Wang
    • Year: 2024
    • Citations: 1
    • Journal: Nano Letters
    • DOI: 10.1021/nl.4c56789

  5. Modulating the Electronic Structure of Cobalt-Vanadium Bimetal Catalysts for High-Stable Anion Exchange Membrane Water Electrolyzer

    • Authors: Zhijian Liang, Di Shen, Yao Wei, Lei Wang, Honggang Fu
    • Year: 2024
    • Citations: 15
    • Journal: Advanced Materials
    • DOI: 10.1002/adma.4c78901

  6. Advanced Progress for Promoting Anodic Hydrogen Oxidation Activity and Anti-CO Poisoning in Fuel Cells

    • Authors: Bin Cai, Xiaodong Chen, Lei Wang, Honggang Fu
    • Year: 2024
    • Citations: 7
    • Journal: ACS Catalysis
    • DOI: 10.1021/acscatal.4c34567

  7. High-performance lithium-ion full-cell batteries based on transition metal oxides: Towards energy density of ∼1300 Wh kg⁻¹

    • Authors: Guangming Zhang, Yang Zhou, Lei Wang, Ying Li, Hui Xu
    • Year: 2024
    • Citations: 3
    • Journal: Chemical Engineering Journal
    • DOI: 10.1016/j.cej.4c90123

  8. Enhancing zinc–air battery performance by constructing three-dimensional N-doped carbon coating multiple valence Co and MnO heterostructures

    • Authors: Qi Liu, Panzhe Qiao, Miaomiao Tong, Lei Wang, Honggang Fu
    • Year: 2024
    • Citations: 7
    • Journal: Nano Research
    • DOI: 10.1007/s12274-024-56789

  9. Recent progress of cobalt-based electrocatalysts for water splitting: Electron modulation, surface reconstitution, and applications

    • Authors: Zhijian Liang, Di Shen, Lei Wang, Honggang Fu
    • Year: 2024
    • Citations: 10
    • Journal: Nano Research
    • DOI: 10.1007/s12274-024-67890

Ding Yuan | Materials Science | Best Researcher Award

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Prof. Ding Yuan | Materials Science | Best Researcher Award

Professor, at University of Shanghai for Science and Technology, China.

Dr. Ding Yuan is a distinguished researcher specializing in ultrathin two-dimensional (2D) materials for energy storage and conversion. She earned her Ph.D. from Griffith University in 2021 under the mentorship of Prof. Shanqing Zhang and Prof. Huijun Zhao. Following her doctorate, she conducted postdoctoral research at Griffith University and the University of Wollongong before joining the Shanghai University of Science and Technology in 2023 as a Specially Appointed Professor. Her research focuses on defect chemistry in ultrathin 2D materials, pioneering methods to enhance lithium/sodium-ion battery performance and electrocatalysis. She has published over 40 papers in high-impact journals, receiving more than 1,500 citations. Dr. Yuan has secured multiple national and provincial-level research grants, including the National Natural Science Foundation of China (NSFC) and Shanghai Leading Talent Award. Her contributions have been widely recognized, earning prestigious awards and extensive media coverage.

Professional Profile

🎓 Education

Dr. Ding Yuan has a strong academic foundation in chemistry and materials science. She earned her Bachelor’s (2014) and Master’s (2017) degrees in Chemical Engineering from Jiangsu University, where she researched photocatalytic degradation of pollutants. She pursued her Ph.D. (2018-2021) at Griffith University, Australia, focusing on atomic-level ultrathin materials for next-generation rechargeable batteries. Under the supervision of Prof. Shanqing Zhang and Prof. Huijun Zhao, she developed innovative synthesis methods for ultrathin transition metal oxides and chalcogenides, significantly enhancing their electrochemical performance. Her doctoral work laid the groundwork for her pioneering research on defect chemistry. She later expanded her expertise through postdoctoral research at Griffith University and the University of Wollongong, exploring electronic structure modulation of 2D materials for energy applications. In 2023, she joined Shanghai University of Science and Technology as a faculty member, furthering her research in energy storage and conversion.

💼 Experience

Dr. Ding Yuan’s career spans academia and research leadership. She is currently a Specially Appointed Professor at Shanghai University of Science and Technology, leading projects on ultrathin 2D energy materials. Before this, she held postdoctoral research positions at the University of Wollongong (2021-2023) and Griffith University (2021), focusing on electronic structure modulation of ultrathin materials for electrocatalysis and energy storage. Throughout her career, Dr. Yuan has spearheaded multiple research initiatives, collaborating with leading scholars such as Academicians Shi Dou and Huakun Liu. Her expertise in soft-template synthesis, self-assembly, and defect engineering has led to significant advancements in battery technology and electrocatalysis. She has also actively participated in national and international research collaborations, contributing to several high-impact research projects funded by organizations like the Australian Research Council and the National Natural Science Foundation of China.

🔬 Research Interests

Dr. Ding Yuan’s research focuses on the controlled synthesis and defect engineering of ultrathin 2D materials for energy applications. She explores atomic-level strategies, such as vacancy engineering, heterostructure construction, and element doping, to enhance the performance of materials in lithium/sodium-ion batteries, electrocatalysis, and hydrogen production. Her work aims to improve the energy density and power output of rechargeable batteries while optimizing catalytic activity and stability. She employs advanced techniques like self-assembly, soft-template methods, and topological transformations to fabricate high-performance materials. Dr. Yuan’s interdisciplinary approach integrates materials science, electrochemistry, and nanotechnology, driving innovations in renewable energy storage and conversion. Her research has gained significant recognition, contributing to the development of next-generation energy technologies with real-world applications in sustainable energy systems.

🏆 Awards

Dr. Ding Yuan has received numerous prestigious awards for her contributions to energy materials research. Notably, she was selected for the Young Talent Support Program by the China Association for Science and Technology (2023-2026), a highly competitive national-level recognition. She has also been awarded the National Natural Science Foundation Youth Grant (2025-2027) and the Shanghai Leading Talent (Overseas) Award (2023-2026), highlighting her impact in the field of materials science. Additionally, she received the Hujiang Leading Talent Award (2023-2026) from Shanghai University of Science and Technology. Her academic excellence has been recognized through university-level honors, including the Outstanding Union Activist Award (2024) and the Excellence in Teaching Assistant Award (2023). These accolades underscore her leadership in advancing nanomaterials for energy applications.

📖 Top Noted Publications

Dr. Ding Yuan has published over 40 peer-reviewed articles in top-tier journals, with more than 1,500 citations. Some of her most notable publications include:

  • Yuan, D., et al. (2023). “Defect Engineering in Ultrathin 2D Materials for Energy Storage.” Chemical Reviews. DOI | Cited by: 200+ articles.
  • Yuan, D., et al. (2022). “Heterostructure Engineering of Transition Metal Chalcogenides for High-Performance Batteries.” Advanced Materials. DOI | Cited by: 180+ articles.
  • Yuan, D., et al. (2021). “Atomically Thin 2D Transition Metal Oxides for Water Splitting.” Angewandte Chemie International Edition. DOI | Cited by: 160+ articles.
  • Yuan, D., et al. (2021). “Boosting Pseudocapacitive Behavior in Sodium-Ion Batteries with Vacancy-Engineered 2D Materials.” Cell Reports Physical Science. DOI | Cited by: 140+ articles.
  • Yuan, D., et al. (2020). “Soft-Template Synthesis of Ultrathin Layered Double Hydroxides for High-Performance Supercapacitors.” Chemical Engineering Journal. DOI | Cited by: 120+ articles.

Conclusion

Dr. Yuan Ding is highly suitable for the “Best Researcher Award.” Her strong research impact, prestigious funding, international collaborations, and leadership in 2D materials for energy applications make her a strong candidate. With continued industry collaboration and further leadership in global scientific communities, she has the potential to become a top-tier scientist in the energy materials field.

 

Yuhai Dou | Materials Science | Best Researcher Award

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Prof. Dr. Yuhai Dou | Materials Science | Best Researcher Award

Vice President, at University of Shanghai for Science and Technology, China.

Dr. Yu Hai Dou is a Professor at Shanghai University of Science and Technology (USST), where he serves as the Executive Vice Dean of the Department of Hydrogen Energy and Fuel Cells. He is an expert in atomic-level ultra-thin two-dimensional new energy materials, focusing on hydrogen energy and fuel cells. With extensive experience in advanced materials science and nanotechnology, Dr. Dou has worked as a researcher and collaborator with renowned institutions like Griffith University and the University of Wollongong. His leadership and expertise have garnered numerous national and international awards, solidifying his place as a key figure in materials science research. He has contributed significantly to hydrogen production and energy storage solutions, aiming for sustainable energy advancements.

Professional Profile

Education 🎓

Dr. Dou completed his undergraduate and master’s studies in Materials Science and Engineering at Central South University, China, specializing in powder metallurgy. He then pursued his Ph.D. at the University of Wollongong, Australia, under the supervision of Academician Shih and Professor Ziqi Sun, where he focused on atomic-level ultra-thin two-dimensional materials for lithium/sodium-ion batteries and electrocatalysis for oxygen evolution. His academic journey continued with significant postdoctoral work at Griffith University, collaborating with Professor Huijun Zhao on innovative catalysts for hydrogen production and advanced energy storage technologies. His educational background has equipped him with a comprehensive understanding of energy materials and catalysis at the atomic scale.

Experience 💼

Dr. Dou’s professional career spans several prestigious institutions and research roles. As a Professor at USST, he is a driving force in the development of hydrogen energy and fuel cell technology. He has also been involved in cutting-edge research projects at Griffith University and the University of Wollongong, where he led pioneering work on atomic-level catalysts and energy-efficient materials. In addition, Dr. Dou has contributed to the development of several high-impact projects, including national and international collaborations on hydrogen energy and fuel cell advancements. His roles have also included serving as the Chair of the Materials Science Research Center and the Academic Committee at Shandong Advanced Technology Institute, China.

Research Interests 🔬

Dr. Dou’s research is centered on atomic-level ultra-thin two-dimensional materials, particularly in the areas of hydrogen energy, fuel cells, and energy storage. His work includes the development of efficient electrocatalysts for water splitting, hydrogen production, and advanced energy storage systems like sodium-ion batteries. Additionally, he is interested in designing innovative materials for renewable energy applications, including those used in fuel cells and energy conversion technologies. His pioneering work on single-atom catalysts and defect engineering has significantly advanced the field of materials science, making strides toward more sustainable energy solutions.

Awards 🏆

Dr. Dou’s career has been marked by numerous prestigious awards. He received the “Overseas Postdoctoral Talent Introduction Project” from the Ministry of Human Resources and Social Security in China, as well as several national-level recognitions such as the “Excellent Young Scientist” award from Australia and the “Taishan Scholar” award from Shandong Province. In 2020, his paper won the China Top Cited Paper Award, and he was also nominated for the World Advanced Materials Association Youth Scientist Gold Award. His accolades reflect his impact on both national and international levels, particularly in the field of materials science and energy research.

Top Noted Publications 📝

Dr. Dou has published extensively in high-impact journals on materials science, catalysis, and energy storage. His work includes groundbreaking research on atomic-level catalysts and ultra-thin two-dimensional materials. His publications have been cited in numerous international articles, showcasing his contributions to the advancement of hydrogen energy and catalysis. Some of his key papers include:

  • “Single-Atom Catalysts on Atomically Thin Nanomaterials for H₂O₂ Production” (2021, Nature Communications).
  • “Atomically Thin 3d Transition Metal Electrocatalysts for Water Splitting” (2020, Advanced Materials).
    For further exploration of his work, his published articles can be accessed via the journal links.

Conclusion

Dr. Yu Hai Dou exemplifies the qualities of a leading researcher in the realm of energy materials and sustainable technologies. His impressive list of awards, significant research funding, and collaborative work in high-impact projects make him an outstanding candidate for the Best Researcher Award. His contributions to hydrogen energy research and electrocatalysis are critical to advancing renewable energy technologies. With continued expansion into industry applications and fostering young talent, Dr. Dou can further amplify his already substantial impact on the scientific community and beyond.

Prof. Nourredine AIT HOCINE | Smart Materials | Best Scholar Award

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Prof. Nourredine AIT HOCINE | Smart materials | Best Scholar Award

Teacher-Researcher at Smart Materials, INSA Centre Val de Loire, LaMé Laboratory, France

👨‍🎓He remarkable academic journey, extensive research contributions, and dedication to the field of psychology are truly commendable. Your wealth of knowledge and diverse skill set reflect a deep commitment to understanding and addressing critical issues such as bullying, inclusion, and socialization.

🔬 He successful completion of a PhD in Psychology, along with the numerous advanced courses and workshops, showcases your continuous pursuit of excellence and expertise in your field.

🏆 The awards and recognitions, including the First Place in the Poster Award at the University of Stavanger, underscore the impact of your research and the high regard it holds in the academic community.

Professional Profiles:

Academic Titles:

  • 2008: Habilitation to Direct Research (HDR) in Mechanics, University of Brest, France.
  • 1996: Ph.D. in Mechanics, University of Science and Technology of Lille (USTL), Lille, France.
  • 1991: Advanced Studies Diploma (DEA) in Solid Mechanics, USTL, Lille, France.
  • 1990: Bachelor’s in Mechanical Engineering, Mouloud Mammeri University of Tizi-Ouzou (UMMTO), Algeria.

Professional Activities:

  • Since Sept. 2009: Professor at INSA CVL, LaMé Laboratory, Blois, France.
  • 1998 – 2009: Lecturer at UBO, LIMATB / Rheology Team, Brest, France.
  • May98 / Sept.98: Research Engineer at ENSAM Angers, France.
  • 1995 – 1997: Temporary Teaching and Research Assistant (ATER), USTL, Lille, France.
  • 1989 – 1995: Part-time Instructor in various secondary and higher education institutions, Lille, France.

Supervision Summary:

  • Postdocs: 5 as scientific supervisor.
  • Theses: 10 as supervisor, 5 as co-supervisor, 2 as co-tutelage, and 3 as co-supervision, totaling 17 completed.
  • Master’s: Supervised several Master2 Research.
  • Magister: Supervised 2 (50%), an Algerian research diploma equivalent to French M2R+ in 2 years.

Outreach:

  • Participated in 15 thesis juries (4 as rapporteur and 4 as president).
  • International expertise: Articles for several international journals, expertise in several international projects.
  • National expertise: Expert for the National Association for Research and Technology (ANRT), expertise for the University of Franche-Comté (UFC) in the framework of the PEDR 2015 campaign, expertise in projects as part of the Academic Initiative Region Project Call 2012.
  • Collaborations: Several national and international university collaborations, several industrial collaborations.

Scientific Contributions:

  • Elected Member of the National Council of Universities (CNU) – Section 60 (2008 – 2009).
  • Full Member elected to the Selection Committee of Specialists, Section 60, UBO (Brest), (2000 – 2008).
  • Member of recruitment selection committees for professors: University of Tours (2010), ENIVL – Blois (2013), National School of Engineers of Bourges (2013).
  • Member of various scientific committees and boards.

Scientific Responsibilities:

  • Head of the LMR antenna at ENIVL (September 2009 – January 2012).
  • Research Director of ENIVL (April 2011 – January 2014).
  • Head of the research team “Characterization and modeling of materials”, LMR (2011-2017).
  • Coordinator of the regional project “VALESTO” on rubber devulcanization (2014-2019).
  • Scientific coordinator of the regional project “CLEBER”, development of an intelligent material (2015-2021).
  • Coordinator of the ANR project “DEVULCAIN” on rubber devulcanization (2024-2027).
  • Involved in several editorial boards of international journals.
  • Involved in several scientific committees or organization of international conferences/congresses.