Multifunctional carbon nitride nanoarchitectures for catalysis

催化作用 氮化碳 纳米技术 材料科学 表面工程 氮化物 碳纤维 化学 光催化 有机化学 图层(电子) 复合数 复合材料
作者
Prashant Kumar,Gurwinder Singh,Xinwei Guan,Jang Mee Lee,Rohan Bahadur,Kavitha Ramadass,Pawan Kumar,Md Golam Kibria,Devthade Vidyasagar,Jiabao Yi,Ajayan Vinu
出处
期刊:Chemical Society Reviews [The Royal Society of Chemistry]
卷期号:52 (21): 7602-7664 被引量:60
标识
DOI:10.1039/d3cs00213f
摘要

Catalysis is at the heart of modern-day chemical and pharmaceutical industries, and there is an urgent demand to develop metal-free, high surface area, and efficient catalysts in a scalable, reproducible and economic manner. Amongst the ever-expanding two-dimensional materials family, carbon nitride (CN) has emerged as the most researched material for catalytic applications due to its unique molecular structure with tunable visible range band gap, surface defects, basic sites, and nitrogen functionalities. These properties also endow it with anchoring capability with a large number of catalytically active sites and provide opportunities for doping, hybridization, sensitization, etc. To make considerable progress in the use of CN as a highly effective catalyst for various applications, it is critical to have an in-depth understanding of its synthesis, structure and surface sites. The present review provides an overview of the recent advances in synthetic approaches of CN, its physicochemical properties, and band gap engineering, with a focus on its exclusive usage in a variety of catalytic reactions, including hydrogen evolution reactions, overall water splitting, water oxidation, CO2 reduction, nitrogen reduction reactions, pollutant degradation, and organocatalysis. While the structural design and band gap engineering of catalysts are elaborated, the surface chemistry is dealt with in detail to demonstrate efficient catalytic performances. Burning challenges in catalytic design and future outlook are elucidated.
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