Chaojiang Fan | Material Science | Best Researcher Award

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Dr. Chaojiang Fan | Material Science | Best Researcher Award

Lecturer at Shaanxi University of Technology | China

Dr. Chaojiang Fan is a Lecturer and Master Supervisor at the School of Materials Science and Engineering, Shaanxi University of Technology, Hanzhong, China. His academic journey and professional expertise reflect a strong dedication to advancing energy storage technologies, particularly in the field of lithium-sulfur batteries. Dr. Fan has published more than 30 SCI papers in influential journals, with 9 as first or corresponding author, demonstrating his active role in driving research and knowledge dissemination. His research spans the design of key materials, the performance optimization of electrochemical devices, and the recycling of waste lithium-ion batteries, aligning with global efforts toward sustainable energy and environmental responsibility. Over the course of his career, he has contributed significantly to separator innovation, offering solutions to challenges such as the polysulfide shuttle effect and lithium dendrite growth, while also promoting the practical application of advanced energy devices. In addition to his publications, Dr. Fan has been involved in competitive research projects at both national and provincial levels, serving as principal investigator and co-investigator. With a commitment to innovation, mentorship, and collaborative research, he continues to shape advancements in energy storage and sustainable materials science.

Professional Profile

Scopus | ORCID

Education

Dr. Chaojiang Fan pursued his academic career at Xi’an University of Technology, where he earned degrees across three levels in materials science and engineering disciplines. He completed his Bachelor of Science in Materials Forming and Control Engineering, where his foundational studies under the guidance of Prof. Yunpeng Zhang nurtured his interest in material design and processing. Building upon this background, he pursued a Master of Science in Materials Processing Engineering under Prof. Yunhua Xu, developing advanced skills in structural design, electrochemistry, and material engineering. His master’s work introduced him to electrochemical applications, setting the stage for his later research focus. To further specialize, Dr. Fan undertook doctoral studies in Materials Science and Engineering, mentored by Prof. Rong Yang, a recognized leader in electrochemical energy systems. His doctoral research concentrated on functional membranes for lithium-sulfur batteries, exploring characteristic regulation and electrochemical performance to overcome performance limitations of next-generation energy storage systems. His thesis represents a comprehensive study integrating synthesis, modification, and performance evaluation of advanced separator materials. Across these educational milestones, Dr. Fan built a robust knowledge base in materials science while cultivating strong experimental and theoretical capabilities, positioning him as a leading scholar in energy storage research.

Professional Experience

Dr. Chaojiang Fan currently serves as Lecturer and Master Supervisor at the School of Materials Science and Engineering, Shaanxi University of Technology, where he is engaged in both teaching and research. His academic role combines classroom instruction, laboratory guidance, and the supervision of postgraduate students, contributing to the training of the next generation of researchers in materials science. In his research career, Dr. Fan has actively participated in and led numerous high-level projects, including the Doctoral Innovation Fund of Xi’an University of Technology, for which he served as principal investigator, and several nationally funded collaborative programs. His professional experience includes working on critical energy-related challenges such as improving the stability and scalability of lithium-sulfur batteries and exploring sustainable recycling methods for lithium-ion battery materials. He has successfully translated laboratory-scale innovations into applied solutions, guiding both fundamental discoveries and their technological applications. His involvement in international and domestic academic conferences, as both presenter and participant, further reflects his active engagement in scholarly exchange. With a strong record of teamwork, leadership, and innovation, Dr. Fan has developed a career that bridges research, education, and practical implementation in the field of advanced energy storage technologies.

Research Interests

Dr. Chaojiang Fan’s research interests revolve around electrochemical energy storage materials and device engineering, with a particular focus on lithium-sulfur batteries. His primary direction lies in the design and synthesis of advanced separator materials capable of suppressing the polysulfide shuttle effect and stabilizing lithium anodes. By regulating structural and surface properties, his work addresses long-standing challenges such as cycle instability and dendritic growth. Another important area of his research is the construction and performance evaluation of complete energy storage devices, spanning laboratory-scale coin cells to larger pouch cells, with the aim of bridging scientific innovation with industrial application. In addition, Dr. Fan has expanded his research toward sustainable material regeneration and battery recycling, recognizing the necessity of closed-loop solutions in the era of increasing electrification. His exploration of waste lithium-ion battery materials contributes to the development of green and efficient recycling methods, aligning with global strategies for carbon neutrality and sustainable development. With over 30 SCI-indexed publications, Dr. Fan’s research combines theoretical insights, material design, and practical applications, making significant contributions to the development of high-performance, durable, and environmentally responsible energy storage technologies.

Research Skills

Dr. Chaojiang Fan possesses a comprehensive set of research skills that enable him to carry out advanced studies in materials science and energy storage. His expertise includes the synthesis and structural modification of functional membranes, particularly through electrospinning and surface engineering techniques, which he has applied to design high-performance separators for lithium-sulfur batteries. He is proficient in electrochemical characterization methods, including cyclic voltammetry, galvanostatic charge-discharge testing, and electrochemical impedance spectroscopy, which allow him to evaluate the kinetics, stability, and efficiency of battery systems. In addition, Dr. Fan has significant experience with advanced material characterization tools such as scanning electron microscopy (SEM), X-ray diffraction (XRD), and X-ray photoelectron spectroscopy (XPS), which provide insights into microstructure, morphology, and chemical states. Beyond laboratory techniques, he has honed project management and academic writing skills through his extensive publication record and leadership roles in funded projects. His involvement as both investigator and co-investigator in competitive grants reflects his ability to design, coordinate, and implement complex research programs. Combining laboratory precision, analytical depth, and collaborative leadership, Dr. Fan’s skill set positions him to continue advancing the frontier of electrochemical energy storage materials and sustainable technology applications.

Awards and Honors

Throughout his academic career, Dr. Chaojiang Fan has received multiple awards and honors that recognize his innovation, leadership, and contributions to materials science research. He served as project manager for a student innovation team that won the National Silver Medal at the China International College Students Innovation Competition, a highly competitive event organized by the Ministry of Education of China. This award highlights not only his scientific contributions but also his mentorship and ability to lead interdisciplinary teams. Earlier, he was honored with the First Prize at the 6th China Innovation Challenge, hosted by the Xi’an Science and Technology Bureau, where he contributed as a co-investigator on a high-impact project. These awards demonstrate his capacity to translate scientific research into tangible technological outcomes, addressing critical challenges in energy storage and material sustainability. Beyond competitions, his active participation in conferences and research collaborations has earned him recognition among peers in the field of electrochemical energy systems. These distinctions, combined with his strong publication record and successful project leadership, underscore his standing as a promising scholar dedicated to advancing sustainable energy technologies while fostering innovation in academic and applied research environments.

Publications Top Notes

Title: Synergistic Interaction of Strongly Polar Zinc Selenide and Highly Conductive Carbon Nanoframeworks Accelerates Redox Kinetics of Polysulfides
Year: 2024
Citations: 2

Title: Engineering a Semi-Immobilized Ionic Liquid Interface Layer to Boost Li⁺ Conduction at Organic-Inorganic Interface
Year: 2025

Title: Multifunctional Integrated Separator Based on Electrospinning Structure Engineering for High-Stability Lithium-Sulfur Batteries
Year: 2025

Conclusion

In conclusion, Dr. Chaojiang Fan exemplifies a new generation of materials scientists dedicated to the advancement of sustainable energy storage technologies. His research has spanned from fundamental material design to practical device engineering and recycling, covering the entire spectrum of energy storage development. Through his work on lithium-sulfur batteries, he has contributed valuable strategies to overcome performance bottlenecks such as the polysulfide shuttle effect, enhancing both the stability and applicability of these systems. His dedication to recycling waste lithium-ion batteries further aligns his work with global sustainability and carbon-neutral goals. With a strong educational foundation, extensive research skills, and leadership in funded projects, Dr. Fan has established himself as both a capable scientist and a mentor to young researchers. The recognition he has received through awards and honors demonstrates the impact and promise of his contributions. Moving forward, he remains committed to combining academic rigor with technological innovation, aiming to bridge the gap between research and industry applications. Dr. Fan’s career reflects a balance of scholarship, practical advancement, and leadership, positioning him as an influential figure in the field of energy storage and materials science.

Mengqiang Li | Material Science | Best Applied Science Award

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Mr. Mengqiang Li | Material Science | Best Applied Science Award

Mengqiang Li from Chungnam National University | South Korea

Li Meng Qiang is a dedicated researcher currently pursuing a Ph.D. at Chungnam National University, specializing in the development of advanced organic optoelectronic materials and perovskite solar cells. His work bridges fundamental material design with practical device applications, aiming to enhance efficiency, stability, and commercialization potential in next-generation photovoltaic and optoelectronic devices. Over the course of his academic journey, Li has demonstrated exceptional productivity, contributing to more than 12 SCI-indexed publications in highly regarded journals such as Advanced Functional Materials, Advanced Science, Materials Today Energy, and ACS Energy Letters. His research interests extend into π-conjugated molecular design, organic photodetectors, and interface engineering strategies that optimize device performance. With an h-index of 5, total citations of 57, and multiple collaborative projects involving leading institutions in Korea and China, Li has established himself as a promising scientist in his field. His contributions include the development of ionic liquid additives, nonfullerene acceptors, and novel quinone-terminal organic semiconductors, which have been recognized with honors such as the BK21 Outstanding Researcher Award and the Korean Industrialization Society Outstanding Presentation Award. Li’s research is fueled by a strong commitment to innovation, scientific rigor, and the translation of laboratory breakthroughs into viable industrial solutions.

Professional Profile

Scopus | ORCID | Google Scholar

Education

Li Meng Qiang’s academic path reflects a deep commitment to materials science and device engineering. He is currently enrolled in the Ph.D. program at Chungnam National University, Republic of Korea, where his research focuses on organic optoelectronic materials and perovskite solar cells. This doctoral training has provided him with advanced expertise in molecular design, synthesis, thin-film fabrication, and device characterization. His work integrates both experimental and theoretical approaches, ensuring a well-rounded understanding of how material properties translate into device performance. Prior to his doctoral studies, Li acquired a strong foundation in chemistry, materials science, and electronic engineering through rigorous undergraduate and postgraduate coursework, where he developed early interests in π-conjugated systems and their optoelectronic applications. His educational experience has been enriched by collaborations with interdisciplinary research teams, which have exposed him to global research standards and cross-cultural scientific exchange. Through seminars, workshops, and international conferences, Li has continuously expanded his academic horizons, keeping pace with the rapidly evolving landscape of organic electronics. His education not only equipped him with technical knowledge but also fostered a mindset oriented toward problem-solving, innovation, and the practical application of scientific discoveries.

Professional Experience

Although currently engaged in full-time doctoral research, Li Meng Qiang has accumulated valuable professional experience through his active involvement in high-impact research projects and collaborations. At Chungnam National University, he has led and contributed to multiple funded projects focusing on the synthesis and application of organic semiconductors, interface engineering for perovskite solar cells, and the development of near-infrared organic photodetectors. His work is characterized by a hands-on approach, from material synthesis to device fabrication and performance optimization. Li’s professional contributions extend beyond laboratory work; he has authored and co-authored over 12 SCI-indexed journal articles, often serving as a key contributor in experimental design, data analysis, and manuscript preparation. His international collaborations with research groups in Korea and China have further broadened his professional scope, allowing him to work on projects that combine material innovation with scalable manufacturing processes. Li has also been actively involved in presenting his research at international conferences, where he has earned recognition for his clarity in communication and the novelty of his findings. Through these experiences, he has developed a professional identity as a skilled experimentalist, an effective communicator, and a collaborative team member dedicated to advancing optoelectronic technologies.

Research Interest

Li Meng Qiang’s research interests lie at the intersection of materials chemistry, nanotechnology, and device engineering, with a particular focus on organic optoelectronic materials and perovskite solar cells. His scientific curiosity is driven by the need to improve the efficiency, stability, and scalability of next-generation energy conversion devices. Central to his work is the design and synthesis of π-conjugated molecules, nonfullerene acceptors, and novel electron acceptors with unique quinone-terminal groups for enhanced optoelectronic performance. Li is also deeply engaged in exploring ionic liquid additives and surface passivation strategies to mitigate defects, suppress nonradiative recombination, and enhance device operational stability. His research extends into organic photodetectors, especially those capable of near-infrared detection, which hold significant promise for applications in sensing, imaging, and communication. By combining molecular engineering with advanced device architecture, Li seeks to develop materials that can be seamlessly integrated into high-performance, cost-effective, and environmentally sustainable electronic systems. His long-term vision is to bridge the gap between laboratory-scale innovations and industrial-scale applications, enabling the commercialization of high-efficiency solar cells and multifunctional optoelectronic devices that contribute to global clean energy solutions.

Research Skills

Li Meng Qiang possesses a diverse set of research skills spanning molecular design, material synthesis, device fabrication, and performance characterization. In synthetic chemistry, he is proficient in designing and producing π-conjugated molecules, nonfullerene acceptors, and organic semiconductors with targeted optoelectronic properties. His expertise in thin-film deposition techniques, such as spin-coating and vacuum evaporation, enables him to fabricate high-quality active layers for perovskite and organic solar cells. He is adept at employing interface engineering methods, including surface passivation and additive incorporation, to optimize device efficiency and stability. Li is also skilled in the characterization of materials and devices using UV-vis spectroscopy, photoluminescence spectroscopy, X-ray diffraction (XRD), scanning electron microscopy (SEM), and current-voltage (J-V) measurements. His analytical skills allow him to interpret complex datasets and derive meaningful correlations between molecular structure, film morphology, and device performance. Additionally, Li has experience with collaborative research management, manuscript preparation, and peer-reviewed publishing. His strong presentation skills, honed through international conferences, enable him to effectively communicate technical concepts to diverse audiences. Overall, his research toolkit is both comprehensive and adaptable, supporting his goal of advancing the frontiers of organic optoelectronic materials and device engineering.

Awards and Honors

Li Meng Qiang’s research excellence has been recognized through several prestigious awards and honors, reflecting both the quality and impact of his scientific contributions. Among his notable accolades is the BK21 Outstanding Researcher Award, which honors outstanding achievements in graduate-level research and innovation. This award underscores his commitment to advancing knowledge in organic optoelectronics and his ability to deliver high-quality, impactful scientific work. He also received the Korean Industrialization Society Outstanding Presentation Award, acknowledging his skill in effectively communicating complex research findings and their industrial relevance. These honors are complemented by his strong publication record in leading journals such as Advanced Functional Materials and ACS Energy Letters. Beyond formal awards, his work has garnered attention through invitations to present at international conferences and participate in collaborative projects with top research groups in Korea and China. His recognition is not only a testament to his technical expertise but also to his dedication, perseverance, and ability to translate research into meaningful technological advancements. These achievements highlight his potential as a future leader in the field of optoelectronic materials and sustainable energy technologies.

Publications Top Notes

Title: Passivating detrimental grain boundaries in perovskite films with strongly interacting polymer for achieving high-efficiency and stable perovskite solar cells
Year: 2023
Citations: 25

Title: Recent progress in semitransparent organic solar cells: photoabsorbent materials and design strategies
Year: 2024
Citations: 10

Title: Enhanced chemical interaction between ionic liquid and halide perovskite to improve performance of perovskite solar cells
Year: 2024
Citations: 7

Title: Interlayer molecular doping to enhance efficiency in tin perovskite solar cells
Year: 2024
Citations: 5

Title: Critical role of the end-group acceptor in enhancing the efficiency of indacenodithiophene-benzothiadiazole-linked nonfullerene organic solar cells through morphology optimization
Year: 2024
Citations: 5

Conclusion

In summary, Li Meng Qiang is an emerging scientist whose work in organic optoelectronic materials and perovskite solar cells stands at the forefront of clean energy research. Through rigorous doctoral training at Chungnam National University, he has developed expertise that spans the entire spectrum from molecular design to device fabrication and performance optimization. His scientific output—comprising more than 12 SCI-indexed publications, an h-index of 5, and over 57 citations—reflects a consistent commitment to quality, innovation, and impact. His contributions to π-bridge engineering, ionic liquid additives, and novel electron acceptors have significantly advanced the understanding and performance of optoelectronic devices. Honors such as the BK21 Outstanding Researcher Award further validate his potential and achievements. Looking forward, Li aims to continue bridging academic research with industrial applications, focusing on scalable, high-performance, and environmentally sustainable solutions. With a foundation built on technical excellence, collaborative engagement, and a forward-looking research vision, he is poised to make substantial contributions to global energy challenges and the future of optoelectronic technology.