g-CN在可持续能源系统光催化应用当前方面的最新进展

Recent Advancement of the Current Aspects of g-C N for its Photocatalytic Applications in Sustainable Energy System.

作者信息

Hayat Asif, Sohail Muhammad, Ali Shah Syed Jawad, Al-Sehemi Abdullah G, Mohammed Mohammed H, Al-Ghamdi Ahmed A, Taha T A, Salem AlSalem Huda, Alenad Asma M, Amin Mohammed A, Palamanit Arkom, Liu Changkun, Nawawi W I, Tariq Saeed Chani Muhammad, Muzibur Rahman Mohammed

机构信息

College of Chemistry and Environmental Engineering, Shenzhen University, 1066 Xueyuan Boulevard, Shenzhen, 518055, People's Republic of China.

Yangtze Delta Region Institute (Huzhou), University of Electronic Science and Technology of China, Huzhou, 313001, P.R. China.

出版信息

Chem Rec. 2022 Jul;22(7):e202100310. doi: 10.1002/tcr.202100310. Epub 2022 Feb 9.

DOI:10.1002/tcr.202100310

PMID:35138017

Abstract

Being one of the foremost enticing and intriguing innovations, heterogeneous photocatalysis has also been used to effectively gather, transform, and conserve sustainable sun's radiation for the production of efficient and clean fossil energy as well as a wide range of ecological implications. The generation of solar fuel-based water splitting and CO photoreduction is excellent for generating alternative resources and reducing global warming. Developing an inexpensive photocatalyst can effectively split water into hydrogen (H ), oxygen (O ) sources, and carbon dioxide (CO ) into fuel sources, which is a crucial problem in photocatalysis. The metal-free g-C N photocatalyst has a high solar fuel generation potential. This review covers the most recent advancements in g-C N preparation, including innovative design concepts and new synthesis methods, and novel ideas for expanding the light absorption of pure g-C N for photocatalytic application. Similarly, the main issue concerning research and prospects in photocatalysts based g-C N was also discussed. The current dissertation provides an overview of comprehensive understanding of the exploitation of the extraordinary systemic and characteristics, as well as the fabrication processes and uses of g-C N .

摘要

作为最具吸引力和趣味性的创新之一，多相光催化也已被用于有效地收集、转化和储存可持续的太阳辐射，以生产高效清洁的化石能源以及产生广泛的生态影响。基于太阳能燃料的水分解和CO光还原反应对于生成替代资源和减少全球变暖具有重要意义。开发一种廉价的光催化剂，能够有效地将水分解为氢气（H）、氧气（O）源，并将二氧化碳（CO）转化为燃料源，这是光催化领域的一个关键问题。无金属的g-CN光催化剂具有很高的太阳能燃料生成潜力。本综述涵盖了g-CN制备的最新进展，包括创新的设计理念和新的合成方法，以及拓展纯g-CN光催化应用光吸收的新思路。同样，也讨论了基于g-CN的光催化剂研究中的主要问题和前景。本论文概述了对g-CN卓越的体系性和特性的全面理解，以及g-CN的制备过程和用途。

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g-CN在可持续能源系统光催化应用当前方面的最新进展

Recent Advancement of the Current Aspects of g-C N for its Photocatalytic Applications in Sustainable Energy System.

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