Bolong Yang | Catalysts | Best Researcher Award

Dr.Bolong Yang , Xi’an Polytechnic University , China.

Dr.Bolong Yang is a Ph.D. researcher in Chemical Engineering at Beijing University of Chemical Technology . A dedicated member of the Communist Party of China , he focuses on developing advanced oxygen reduction catalysts and optimizing membrane electrodes for fuel cells . With a strong background in physical chemistry and applied chemistry, he has published multiple high-impact research papers . Under the guidance of Professor Zhonghua Xiang, Bolong has made significant contributions to sustainable energy solutions, particularly in electrocatalysis and polymer electrolyte fuel cells .

Publication Profile

Orcid

Scopus

Education & Experience

Ph.D. in Chemical Engineering and Technology (2020 – Present) – Beijing University of Chemical Technology
- Research: Fuel cell cathode catalysts & three-phase interface in membrane electrodes
- Advisor: Professor Xiang Zhonghua
Master’s in Physical Chemistry (2017 – 2020) – Northwest University
- Research: MOF-derived materials in supercapacitors
- Advisor: Professor Li Zuoxi
Bachelor’s in Applied Chemistry (2013 – 2017) – Xi’an University of Arts and Science

Suitability Summary

Dr. Bolong Yang, a distinguished researcher in fuel cell technology and energy storage materials, has made groundbreaking contributions to the development of catalysts for high-performance fuel cells and rechargeable zinc-air batteries. His research has been widely recognized in top-tier journals such as Advanced Materials, ACS Nano, and Nano Energy, demonstrating his expertise in catalyst design, electrocatalysis, and nanostructure engineering. His significant contributions to oxygen reduction reaction (ORR) catalysts and membrane electrode interface engineering make him a prime candidate for the Best Researcher Award.

Professional Development

Dr. Bolong Yang is actively engaged in cutting-edge fuel cell research, specializing in the design of high-performance catalysts for sustainable energy applications . His expertise spans from covalent organic polymers and atomically dispersed metal sites to nanostructure engineering in membrane electrode assemblies . With multiple high-impact publications in Advanced Materials, Nano Energy, and ACS Nano, he contributes significantly to green energy advancements . Collaborating with leading experts, he develops novel electrocatalysts that enhance energy efficiency and durability in proton exchange membrane fuel cells , pushing the frontiers of clean energy technology .

Research Focus

Dr. Bolong Yang research is centered on fuel cell electrocatalysis and energy storage . His work explores the development of high-efficiency oxygen reduction catalysts using covalent organic frameworks, single-atom catalysts, and nanostructured materials . He also investigates the controllable construction of the three-phase interface in membrane electrodes, enhancing proton exchange membrane fuel cell (PEMFC) performance . His earlier work on MOF-derived materials for supercapacitors paved the way for his current contributions to sustainable energy solutions . Through innovative catalyst design, he aims to improve energy conversion efficiency and reduce reliance on precious metals .

Awards & Honors

Published multiple high-impact Q1 journal papers in Advanced Materials, Nano Energy, and ACS Nano
Recognized for contributions to electrocatalysis and fuel cell technology
Active researcher under Professor Zhonghua Xiang, contributing to major advancements in energy technology
Developed innovative electrocatalysts that enhance the efficiency of polymer electrolyte fuel cells
Received multiple research grants and project funding for sustainable energy studies

Publication Top Notes

Porous Covalent Organic Polymer Coordinated Single Co Site Nanofibers for Efficient Oxygen-Reduction Cathodes in Polymer Electrolyte Fuel Cells – Advanced Materials (2023) | Cited by: TBD

A Highly Efficient Axial Coordinated CoN₅ Electrocatalyst via Pyrolysis-Free Strategy for Alkaline Polymer Electrolyte Fuel Cells – Nano Energy (2022) | Cited by: TBD

Nanostructure Engineering of Cathode Layers in Proton Exchange Membrane Fuel Cells: From Catalysts to Membrane Electrode Assembly – ACS Nano (2024) | Cited by: TBD

Atomically Dispersed Isolated Fe-Ce Dual-Metal-Site Catalysts for Proton-Exchange Membrane Fuel Cells – ACS Applied Materials & Interfaces (2023) | Cited by: TBD

Secondary Reduction Strategy Synthesis of Pt-Co Nanoparticle Catalysts Towards Boosting the Activity of Proton Exchange Membrane Fuel Cells – Particuology (2023) | Cited by: TBD

Material Design and Catalyst-Membrane Electrode Interface Engineering for High-Performance Rechargeable Zinc-Air Batteries – Energy Storage Materials (2025) | Cited by: TBD

Immobilization of Snailase and β-Glucosidase on L-Aspartic Acid-Modified Magnetic Amorphous ZIF for Efficiently and Sustainably Producing Ginsenoside Compound K – International Journal of Biological Macromolecules (2025) | Cited by: TBD .

Dr. Yongning Yuan |Ningxia Universtiy | China

Yongning Yuan is a dedicated researcher at Ningxia University specializing in catalytic conversion. His work focuses on developing innovative catalysts for selective CO₂ hydrogenation, converting it into industrially valuable chemicals like methanol. Using advanced first-principles calculations, he designs efficient catalysts such as PtN/MoS₂ clusters, achieving breakthrough results in sustainable energy solutions. His research emphasizes dynamic geometry evolution and charge transfer mechanisms, with findings that lay the foundation for next-generation catalysts. Yongning’s commitment to advancing green chemistry and his collaborative approach underscore his contributions to environmental sustainability. 📚🔬🌱

Suitability

Yongning Yuan exemplifies excellence in research through his groundbreaking contributions to catalytic conversion and CO₂ hydrogenation. His innovative approach to developing efficient PtN/MoS₂ catalysts has significantly advanced the field of green chemistry, with practical applications in sustainable energy production. Yongning’s use of advanced first-principles calculations and his focus on dynamic geometry evolution and charge transfer mechanisms have resulted in highly selective and efficient chemical processes, particularly the conversion of CO₂ to methanol—an achievement with both industrial and environmental significance.

Profession

Yongning Yuan has advanced catalytic conversion research through innovative studies in CO₂ hydrogenation. His development of PtN/MoS₂ catalysts exemplifies his ability to bridge theoretical insights with practical applications. Leveraging first-principles calculations, Yongning has demonstrated how dynamic geometry evolution and effective charge transfer can drive sustainable chemical production. He actively participates in academic forums, shares groundbreaking findings, and fosters collaboration within the scientific community. His expertise not only advances green chemistry but also supports global efforts to mitigate carbon emissions. 🌐🧪🌟

Research Focus

Yongning Yuan focuses on sustainable catalytic conversion for environmental applications. 🌱🔬 His pioneering work on selective CO₂ hydrogenation to methanol addresses critical challenges in carbon utilization. Employing advanced modeling techniques, he explores charge dynamics and reaction mechanisms, achieving highly selective and efficient chemical transformations. His efforts aim to develop practical solutions for reducing atmospheric CO₂ while creating valuable industrial chemicals. By contributing to the design of next-generation metal cluster catalysts, Yongning plays a vital role in advancing the field of green energy and sustainable chemistry. ⚗️💡🌍

Publication Top notes