Qabas Khalid Naji | Material Science | Best Researcher Award

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Assist. Prof. Dr. Qabas Khalid Naji | Material Science | Best Researcher Award

University of Babylon | Iraq

Assist. Prof. Dr. Qabas Khalid Naji is a distinguished academic and researcher in the field of Materials and Metallurgical Engineering, with a specialized focus on biomaterials, coatings, and advanced surface modification technologies. With her Ph.D. in Metallurgical Engineering from the University of Babylon, she has established herself as an expert in developing innovative solutions for biomedical applications and industrial engineering challenges. Her doctoral work emphasized Micro-Arc Oxidation (MAO) processes, improving corrosion resistance, mechanical properties, and structural performance of titanium-based alloys, which are highly relevant in medical implant technologies. Dr. Qabas has authored and co-authored multiple research papers in high-impact journals, such as Materials Today: Proceedings, Key Engineering Materials, and Journal of Physics: Conference Series. She has also contributed as a reviewer and evaluator for numerous international conferences, highlighting her academic recognition. Beyond research, she has played an important role in teaching and mentoring students, serving as a lecturer at both the University of Babylon and Al-Mustaqbal University College. Her academic journey reflects a balance of research excellence, teaching leadership, and professional service, positioning her as one of the promising scholars in her field with significant contributions to both science and education.

Professional Profile

Scopus | Google Scholar

Education

Assist. Prof. Dr. Qabas Khalid Naji has pursued a strong academic pathway rooted in Materials and Metallurgical Engineering. She began her higher education at the University of Babylon, where she obtained her Bachelor of Science (B.Sc.) in Material Engineering / Metallurgical Engineering. During this phase, she developed a foundational understanding of material structures, mechanical properties, and engineering applications. She further advanced her expertise by completing a Master of Science (M.Sc.) in Metallurgical Engineering, focusing on metal processing, surface engineering, and quality enhancement techniques. This period allowed her to engage in advanced laboratory practices and develop independent research skills. Her academic journey culminated with a Doctor of Philosophy (Ph.D.) in Metallurgical Engineering, where her dissertation was centered on bioceramic coatings and the application of Micro-Arc Oxidation techniques to improve the biomedical performance of alloys. The Ph.D. phase represented a crucial step in her academic development, equipping her with both theoretical knowledge and practical expertise to carry out innovative, application-oriented research. Her educational background demonstrates a consistent dedication to advancing materials science, and it has laid the foundation for her career as a researcher, lecturer, and scientific contributor in both academic and professional domains.

Professional Experience

Assist. Prof. Dr. Qabas Khalid Naji has built a diverse academic and teaching career with roles that combine research, teaching, and administrative responsibilities. She began her academic career as an external lecturer at the University of Babylon, teaching courses in Laboratory Metals Machining, Industrial Engineering, and Quality Control, where she applied her strong technical knowledge to guide students in practical and theoretical aspects of materials science. She later served as a lecturer at Al-Mustaqbal University College in the Department of Biomedical Engineering, where she also undertook additional responsibilities as a quality officer, ensuring academic and institutional standards. she was officially appointed as a faculty member at the University of Babylon, College of Materials Engineering, where she continues to serve as an Assistant Professor. Alongside teaching, she has played an important role in curriculum design, quality management, and student mentorship. Dr. Qabas has also acted as an evaluator for international research conferences, which highlights her recognition in the global academic community. Her professional journey reflects a strong commitment to education, scientific innovation, and academic leadership, ensuring her continuous growth as a researcher and educator in metallurgical and materials engineering.

Research Interests

Assist. Prof. Dr. Qabas Khalid Naji’s research interests lie primarily in biomaterials, coatings, and advanced metallurgical engineering applications. Her doctoral research focused on the surface modification of titanium alloys through Micro-Arc Oxidation (MAO), which significantly enhances mechanical strength, corrosion resistance, and biocompatibility, making it ideal for biomedical implants. She has also explored layered bioceramic coatings, including hydroxyapatite and titanium dioxide composites, which contribute to advancements in medical device technology. Beyond biomaterials, her research extends into nanostructured materials, corrosion science, heat treatment effects, and aluminum alloy processing, showcasing her ability to bridge both theoretical materials science and practical engineering applications. Her recent publications have investigated the impact of melting and casting parameters on aluminum alloys, reflecting her wide scope of expertise. Dr. Qabas is particularly interested in how surface engineering techniques can improve material performance in biomedical, aerospace, and industrial sectors. She continues to expand her research through collaborative projects, interdisciplinary studies, and applied experimental work, ensuring her contributions remain at the forefront of materials innovation, biomedical engineering, and sustainable industrial technologies. Her research agenda demonstrates a clear vision of bridging scientific discovery with real-world technological applications.

Research Skills

Over the course of her academic and professional journey, Assist. Prof. Dr. Qabas Khalid Naji has developed a comprehensive set of research skills that span experimental, analytical, and academic domains. Her expertise lies in surface modification techniques such as Micro-Arc Oxidation (MAO), which she has extensively applied to titanium-based alloys for biomedical applications. She is skilled in materials characterization methods, including structural, mechanical, and corrosion property testing of advanced alloys and bioceramic coatings. Additionally, she has experience in heat treatment processes, alloy casting, and nanomaterial preparation, making her well-versed in both experimental and industrial metallurgical practices. On the academic side, she is proficient in scientific writing, peer reviewing, and presenting research at international conferences. She has participated in and completed multiple professional training courses in teaching methodology, computer applications, and engineering innovations, further enhancing her technical and academic competencies. Furthermore, Dr. Qabas has served as an evaluator and reviewer for various scientific conferences and research platforms, reflecting her recognition as an expert in her field. Her ability to combine theoretical analysis with experimental practice highlights her strong profile as a well-rounded researcher, capable of contributing both academically and industrially to materials science and engineering.

Awards and Honors

Throughout her career, Assist. Prof. Dr. Qabas Khalid Naji has received recognition for her academic and research contributions in the field of Materials and Metallurgical Engineering. She has been actively involved in evaluating and reviewing international research and scientific conferences, which reflects her respected standing within the global research community. Her publications in reputed, peer-reviewed journals and conference proceedings indexed in Scopus and Web of Science further highlight her scholarly impact. Among her notable works are contributions to journals such as Materials Today: Proceedings, Key Engineering Materials, 3C Tecnología, and Journal of Physics: Conference Series, all of which underline her role as a productive and impactful researcher. She has also been invited to participate in scientific workshops, training courses, and professional development programs, earning certifications that enhance both her teaching and research expertise. While her career is still progressing, her consistent contributions in biomaterials, alloy modifications, and applied surface engineering techniques stand as significant honors to her academic profile. Her growing citation record and recognition as a reviewer reflect her standing as an emerging leader in her discipline, with strong potential to achieve further international awards and honors in the near future.

Publication Top Notes

  • Investigations of structure and properties of layered bioceramic HA/TiO₂ and ZrO₂/TiO₂ coatings on Ti-6Al-7Nb alloy by micro-arc oxidation — 2022 — 20 citations

  • The surface modification of pure titanium by micro-arc oxidation (MAO) process — 2021 — 10 citations

  • Effect of tool shape geometry and rotation speed in friction stir welding of 2024-T3 — 2016 — 5 citations

  • Plasma Electrolytic Oxidation of Nanocomposite Coatings on Ti-6Al-7Nb alloy for Biomedical Applications — 2024 — 2 citations

  • Study of the Effect of Melting and Casting Temperature and Heat Treatment on the Mechanical Properties of Aluminum 7075 — 2024

  • Micro-arc oxidation enhances mechanical properties and corrosion resistance of Ti-6Al-7Nb alloy — 2023

  • Deposition of Layered Bioceramic HA/TiO₂ Coatings on Ti-6Al-7Nb Alloys Using Micro-Arc Oxidation — 2022

Conclusion

Assist. Prof. Dr. Qabas Khalid Naji is an exemplary academic and researcher who has made meaningful contributions to metallurgical and materials engineering, particularly in the area of biomaterials and advanced coating technologies. Her educational journey from B.Sc. to Ph.D. at the University of Babylon reflects her dedication to academic excellence, while her professional experiences as a lecturer, quality officer, and assistant professor demonstrate her commitment to teaching, mentoring, and research leadership. With impactful publications in international journals and presentations in scientific conferences, she has established her research visibility at both national and international levels. Her skills in surface engineering, corrosion science, and biomedical applications highlight her capacity to address pressing challenges in both industrial and medical fields. Beyond research, her involvement in conference evaluation, training courses, and academic quality management underscores her service to the scientific community. Looking ahead, Dr. Qabas is well-positioned to expand her global collaborations, publish in higher-impact journals, and take on greater leadership roles in international research networks. Her achievements and potential make her highly deserving of recognition, such as the Best Researcher Award, reflecting her growing impact in advancing science, engineering, and education.

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.

 

 

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