Single‐atom catalysis for carbon neutrality

碳中和 化石燃料 碳纤维 催化作用 温室气体 纳米技术 环境科学 材料科学 化学 有机化学 生态学 生物 复合数 复合材料
作者
Ligang Wang,Dingsheng Wang,Yadong Li
出处
期刊:Carbon energy [Wiley]
卷期号:4 (6): 1021-1079 被引量:263
标识
DOI:10.1002/cey2.194
摘要

Abstract Currently, more than 86% of global energy consumption is still mainly dependent on traditional fossil fuels, which causes resource scarcity and even emission of high amounts of carbon dioxide (CO 2 ), resulting in a severe “Greenhouse effect.” Considering this situation, the concept of “carbon neutrality” has been put forward by 125 countries one after another. To achieve the goals of “carbon neutrality,” two main strategies to reduce CO 2 emissions and develop sustainable clean energy can be adopted. Notably, these are crucial for the synthesis of advanced single‐atom catalysts (SACs) for energy‐related applications. In this review, we highlight unique SACs for conversion of CO 2 into high‐efficiency carbon energy, for example, through photocatalytic, electrocatalytic, and thermal catalytic hydrogenation technologies, to convert CO 2 into hydrocarbon fuels (CO, CH 4 , HCOOH, CH 3 OH, and multicarbon [C 2+ ] products). In addition, we introduce advanced energy conversion technologies and devices to replace traditional polluting fossil fuels, such as photocatalytic and electrocatalytic water splitting to produce hydrogen energy and a high‐efficiency oxygen reduction reaction (ORR) for fuel cells. Impressively, several representative examples of SACs (including d ‐, ds ‐, p ‐, and f ‐blocks) for CO 2 conversion, water splitting to H 2 , and ORR are discussed to describe synthesis methods, characterization, and corresponding catalytic activity. Finally, this review concludes with a description of the challenges and outlooks for future applications of SACs in contributing toward carbon neutrality.
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