Assist. Prof. Dr. Cahofeng Huang, Catalysis , Associate Professor at shihezi university, China
Dr. Chaofeng Huang is a dedicated Chinese researcher specializing in materials chemistry, electrochemiluminescence, and electrocatalysis. He currently holds an invited position at Shihezi University since 2019 and has contributed extensively to the development of novel sensing materials and photoelectrochemical systems. Dr. Huang began his academic journey at Shihezi University, later earning his advanced degrees from Southeast University in Nanjing. Over the years, he has become known for innovative strategies in pH sensing, oxygen evolution reaction (OER), and near-infrared biosensing using D-π-A structures. His research integrates nanotechnology with electrochemical principles to enable breakthroughs in catalysis and biosensor platforms. With over 14 scientific publications, including in high-impact journals such as Analytical Chemistry and Chemical Engineering Journal, he has gained a reputable standing in the scientific community. His preprints on ChemRxiv further illustrate his ongoing contributions to electrochemical research and energy conversion materials.
Professional Profile :
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Summary of Suitability for Award:
Dr. Chaofeng Huang demonstrates strong credentials that make him a suitable candidate for the Best Researcher Award. With over a decade of academic and research experience, he has shown consistent contributions to the field of materials chemistry, electro chemiluminescence, electrocatalysis, and biosensing technologies. He has authored 14 research publications, including articles in high-impact journals such as Analytical Chemistry and Chemical Engineering Journal, and cutting-edge preprints on ChemRxiv. Dr. Chaofeng Huang is highly suitable for nomination for the “Best Researcher Award”. His scientific productivity, impactful publications, innovative methodologies, and commitment to research excellence underscore his leadership in the field of chemistry and materials science. His work bridges theory with practical applications, making valuable contributions to both academic knowledge and technological advancement. Based on the quality and relevance of his research, his publication record, and institutional engagements, Dr. Huang deserves serious consideration for the award.
🎓Education:
Dr. Chaofeng Huang earned his Ph.D. in Chemistry from Southeast University, Nanjing, Jiangsu, China, between September 2015 and March 2019. His doctoral studies focused on materials science, nanotechnology, and electrochemical systems with applications in biosensing and catalysis. Prior to this, he completed his Master’s degree at Shihezi University, Xinjiang, from September 2012 to June 2015, where he laid the foundation for his future research interests in applied electrochemistry. This followed his undergraduate education, also at Shihezi University. Through both academic tracks, he demonstrated strong analytical skills and a keen interest in interdisciplinary science. These formative years shaped his expertise in electrochemiluminescent sensing, photoelectrochemical systems, and nanomaterials, ultimately positioning him for a successful research career. His education from two prestigious Chinese institutions provided him with not only deep theoretical knowledge but also hands-on experience with advanced instrumentation and chemical engineering approaches.
🏢Work Experience:
Dr. Huang began his professional career at Shihezi University in 2008, serving until 2015 in various academic roles. During this period, he engaged in both teaching and research activities in the Chemistry and Chemical Engineering domains. In 2015, he transitioned to Southeast University in Nanjing, where he continued his employment until 2019. At Southeast University, Dr. Huang contributed to research on electrocatalysis and advanced sensor development, gaining valuable experience in interdisciplinary collaboration and laboratory innovation. Since September 2019, he has held an invited academic position at Shihezi University, where he remains actively involved in research and mentoring graduate students. His professional trajectory reflects a strong commitment to advancing electrochemical science and fostering academic growth. With extensive experience in academic research, Dr. Huang has developed a niche in electrocatalytic materials and continues to influence the field through scholarly contributions and collaboration on national scientific initiatives.
🏅Awards:
While specific awards and honors are not explicitly listed in public databases, Dr. Chaofeng Huang’s academic achievements reflect recognition through continued institutional appointments and publication in prestigious journals. His invitation to return to Shihezi University as a faculty member in 2019 signifies peer acknowledgment of his scientific credibility. Being a corresponding author of multiple high-impact journal articles and preprints on platforms like ChemRxiv, Analytical Chemistry, and Chinese Chemical Letters is itself a testament to his research excellence. His work has contributed to advancing electrochemical detection and catalysis, which are key research priorities in China’s scientific development agenda. Furthermore, his early academic trajectory from undergraduate to invited faculty roles at major Chinese institutions suggests a consistent record of merit-based appointments. Future honors are likely as his research continues to impact materials science and chemical engineering disciplines globally.
🔬Research Focus:
Dr. Chaofeng Huang’s research focuses on electrochemical sensing, electrocatalysis, and nanomaterials engineering. A significant portion of his work investigates the behavior of local pH gradients and charge transfer processes during the oxygen evolution reaction (OER), using electrochemiluminescent (ECL) and photoelectrochemical (PEC) techniques. He designs and utilizes carbon nitride-based heterojunctions and D-π-A structures to enhance biosensing performance, especially in near-infrared conditions. His studies also include surface modifications of catalytic materials, such as Cu single-atom sites, to boost reaction efficiency in industrial chemical processes like acetylene hydrochlorination. Dr. Huang often combines non-covalent molecular interactions and advanced nanofabrication strategies to build platforms capable of real-time, selective detection of protons and reactive species. His interdisciplinary approach bridges chemistry, material science, and electrical engineering to provide solutions for sustainable energy, catalysis, and medical diagnostics. Through collaborative and innovative research, he continues to contribute to the evolving landscape of functional materials and sensor development.
Publication Top Notes:
1. Measurements of Local pH Gradients for Electrocatalysts in Oxygen Evolution Reaction by Electrochemiluminescence
2. Enhanced Near-Infrared Photogenerated Carrier Transfer via Doublet-State Excitation in D-π-A Structures for Biosensing
3. Non-Covalent Coupling of Carbon Nitrides and Dyes for Selective and Sensitive Electrochemiluminescent Detection of Local H+ in Oxygen Evolution Reaction
4. Promotion Effect of Epoxy Group Neighboring Single-Atom Cu Site on Acetylene Hydrochlorination
5. Carbon Nitride-Based Heterojunction Photoelectrodes with Modulable Charge-Transfer Pathways toward Selective Biosensing
6. Protonation-Induced Site and Field Reconstruction for Ultrafast Adsorptive Desulfurization over Cu–N–C
7. Manipulating Micro-Electric Field and Coordination-Saturated Site Configuration Boosted Activity and Safety of Frustrated Single-Atom Cu/O Lewis Pair for Acetylene Hydrochlorination
8. Synergistic Desulfurization over Graphitic N and Enzyme-Like Fe–N Sites of Fe–N–C
9. Unraveling Fundamental Active Units in Carbon Nitride for Photocatalytic Oxidation Reactions
10. Preparation of Carbon Nitride Nanoparticles by Nanoprecipitation Method with High Yield and Enhanced Photocatalytic Activity