Dr. Xialiang Li is an accomplished scholar and Associate Professor at the School of Chemistry and Chemical Engineering, Shaanxi Normal University, China. He serves as the chief professor and doctoral supervisor of the molecular simulation and solar energy conversion research team. His academic focus lies primarily in the intersection of chemistry and energy sciences, particularly targeting small molecule activation processes for sustainable energy applications. Dr. Li is widely recognized for his methodical approach to the synthesis and characterization of molecular complexes and solid-state materials. His work involves a balanced combination of theoretical insights and practical experimentation, aimed at resolving critical challenges in the fields of catalysis and bioinorganic chemistry. Over the years, he has built an extensive portfolio of high-impact publications in leading international journals, including the Journal of the American Chemical Society, Angewandte Chemie International Edition, and ACS Catalysis. Dr. Li’s ongoing efforts are supported by several national-level funding agencies, and he continues to contribute significantly to the academic landscape through mentoring, research leadership, and active participation in advanced scientific projects. His expertise, dedication to excellence, and forward-looking research trajectory make him a strong contender for prestigious recognitions such as the Best Researcher Award.

Professional Profile

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Education

Dr. Xialiang Li has a robust academic foundation, built through successive degrees from reputable Chinese institutions. He began his academic journey at Changchun University of Science and Technology, where he earned his Bachelor’s degree from 2009 to 2013. During this period, he gained fundamental knowledge and developed an early interest in chemistry and materials science. He continued his postgraduate studies at Lanzhou Jiaotong University, where he pursued a Master’s degree from 2013 to 2016. There, he delved deeper into specialized research methodologies, analytical techniques, and experimental approaches that prepared him for advanced research. To further enhance his expertise and explore complex topics in energy conversion and catalysis, Dr. Li enrolled at Shaanxi Normal University for his doctoral studies, which he completed between 2016 and 2019. His Ph.D. research was instrumental in shaping his long-term academic trajectory, leading to significant contributions in bioinorganic chemistry and molecular catalysis. Throughout his education, Dr. Li consistently demonstrated academic excellence, innovative thinking, and a strong commitment to pushing the boundaries of scientific knowledge. His educational path reflects a well-rounded and focused progression that has equipped him with the skills and perspective necessary for high-impact research in energy-related chemical sciences.

Professional Experience

Dr. Xialiang Li has accumulated a range of academic and research experiences that underscore his professional growth and leadership in the field of chemistry. After obtaining his doctoral degree in 2019, he joined Shaanxi Normal University as a postdoctoral researcher, a position he held until 2022. During this phase, he expanded his research activities into new areas, working on high-priority projects related to small molecule activation and catalysis. His postdoctoral work solidified his expertise in cutting-edge techniques such as spectroscopic analysis, crystallography, and electrochemical testing, allowing him to produce insightful findings on catalytic mechanisms. In 2022, he was promoted to the role of Associate Professor at the same institution, a testament to his academic achievements and growing reputation as a research leader. In this capacity, he supervises doctoral candidates, coordinates interdisciplinary projects, and leads a dynamic research group dedicated to solar energy conversion. His work has been supported by major funding sources, and he continues to contribute to the university’s mission through teaching, mentoring, and scientific collaboration. Dr. Li’s professional journey demonstrates a steady and impactful progression, marked by academic rigor, leadership ability, and dedication to solving pressing energy-related challenges through innovative chemical research.

Research Interests

Dr. Xialiang Li’s research interests are centered on bioinorganic chemistry and catalysis, with a primary focus on energy-related small molecule activation. He is particularly interested in the design, synthesis, and functionalization of molecular complexes and solid-state materials that can serve as efficient catalysts for processes such as water splitting, oxygen reduction, and carbon dioxide reduction. These reactions are critical to sustainable energy conversion and storage technologies, including hydrogen production and carbon capture. At the core of his research is a desire to understand and manipulate the underlying principles of catalysis to improve efficiency and selectivity. As the head of the molecular simulation and solar energy conversion team at Shaanxi Normal University, he leads investigations that integrate experimental and computational approaches to explore structure–activity relationships. His work involves leveraging crystallographic data, electrochemical behavior, and spectroscopic signatures to derive mechanistic insights that can inform the design of next-generation catalytic systems. Dr. Li’s research not only contributes to fundamental chemical knowledge but also offers practical solutions to real-world energy challenges. By focusing on catalytic innovations with broad environmental and industrial applications, he stands at the forefront of a transformative area of modern chemistry.

Research Skills

Dr. Xialiang Li possesses a comprehensive set of research skills that position him as a leading expert in the field of catalytic energy conversion. His core competencies include the synthesis of molecular and solid-state materials, crystallographic analysis, and a range of advanced electrochemical techniques. He is proficient in the use of multiple spectroscopic methods, such as UV-Vis, FTIR, NMR, and EPR, which allow him to characterize the electronic structure and reactive behavior of catalytic systems in detail. His ability to connect structural features with catalytic performance enables him to establish precise structure–activity relationships, which are essential for rational catalyst design. In addition, Dr. Li has extensive experience in computational modeling and molecular simulation, tools that complement his experimental work by offering predictive insights into reaction mechanisms and kinetics. His methodological rigor is supported by a strong foundation in physical chemistry and thermodynamics, which he applies to optimize catalyst efficiency under practical conditions. These versatile skills empower him to tackle complex research questions, develop novel materials, and push the boundaries of what is achievable in green and sustainable chemistry. His integrated approach reflects a balance between theoretical understanding and practical application.

Awards and Honors

Dr. Xialiang Li’s scholarly excellence has been recognized through various national and institutional awards, research grants, and honors. His work has attracted funding from several prestigious organizations, including the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. These grants not only reflect the innovative nature of his proposals but also his ability to deliver high-impact results in strategically important research areas. In addition to these national-level grants, Dr. Li has received internal support from Shaanxi Normal University under its Fundamental Research Funds for the Central Universities program, which supports cutting-edge investigations in emerging scientific fields. While he has not listed specific award titles, his publication record in top-tier journals such as Angewandte Chemie, JACS, ACS Catalysis, and Accounts of Chemical Research stands as a testament to his scholarly recognition in the global chemistry community. His research achievements have also led to his appointment as a doctoral supervisor and key faculty member within his institution. Dr. Li’s growing influence, backed by strong funding and consistent publication output, underscores his status as a rising star in the field of catalysis and sustainable chemistry.

Conclusion

Dr. Xialiang Li is a distinguished academic whose work bridges fundamental chemistry and applied energy science. His trajectory from a strong academic foundation to a leadership role in research demonstrates consistent growth, innovation, and impact. He has successfully developed a research niche in bioinorganic catalysis, tackling some of the most urgent global challenges related to clean energy and environmental sustainability. His ability to secure competitive research funding, publish in leading international journals, and lead a vibrant research team reflects his commitment to scientific advancement and academic excellence. While there is still room for expanding international collaborations and industrial applications, his current portfolio already positions him as a strong candidate for broader scientific recognition. By combining deep technical expertise with a clear vision for the future of sustainable chemistry, Dr. Li embodies the ideals of a modern scientific leader. He is highly deserving of the Best Researcher Award, not only for his research contributions but also for his potential to shape future directions in catalytic science and energy conversion technologies. His continued work is expected to deliver both theoretical breakthroughs and practical innovations with long-term global relevance.

Publications Top Notes

• Electrocatalytic Syngas Production Using Metalloporphyrins with Controllable H₂/CO Ratios
  Authors: Zhimeng Wang, Benxing Mei, Yuhan Xu, Yuze Liu, Xialiang Li, Rui Cao
  Year: 2025
• Improving Electrocatalytic CO₂ Reduction over Iron Tetraphenylporphyrin with Triethanolamine as a CO₂ Shuttle
  Authors: Zhiyuan Yin, Mengchun Zhang, Yuchi Long, Haitao Lei, Xialiang Li, Xue-Peng Zhang, Wei Zhang, Ulf-Peter Apfel, Rui Cao
  Year: 2025
• Revealing Significant Electronic Effects on the Oxygen Reduction Reaction with Iron Porphyrins
  Authors: Zhiyuan Yin, Yuchi Long, Haitao Lei, Xue-Peng Zhang, Xialiang Li, Rui Cao
  Year: 2025