The Role of Sulfur-Related Species in Oxygen Reduction Reactions

Chalcogen Chemistry Pub Date : 2018-11-05 DOI:10.5772/INTECHOPEN.78647
Dan Xu, W. Wu
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引用次数: 1

Abstract

Heteroatom (metal and nonmetal) doping is essential to achieve excellent oxygen reduc- tion reaction (ORR) activity of carbon materials. Among the heteroatoms that have been studied to date, sulfur (S) doping , including metal sulfides and sulfur atoms, has attracted tremendous attention. Since S-doping can modify spin density distributions around the metal centers as well as the synergistic effect between S and other doped heteroatoms, the S - C bond and metal sulfides can function as important ORR active sites. Furthermore, the S-doped hybrid sample shows a small charge-transfer resistance. Therefore, S-doping contributes to the superior ORR performance. This chapter describes the recent advance-ments of S-doped carbon materials, and their development in the area of ORR with regard to components, structures, and their ORR activities of S-related species.
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硫相关物质在氧还原反应中的作用
杂原子(金属和非金属)掺杂是实现碳材料良好氧还原反应活性的必要条件。在迄今为止研究的杂原子中,硫(S)掺杂(包括金属硫化物和硫原子)引起了极大的关注。由于S掺杂可以改变金属中心周围的自旋密度分布以及S与其他掺杂杂原子之间的协同效应,因此S- C键和金属硫化物可以作为重要的ORR活性位点。此外,掺杂s的杂化样品表现出较小的电荷转移电阻。因此,s掺杂有助于提高ORR性能。本章介绍了s掺杂碳材料的最新进展,以及它们在ORR领域的进展,包括s相关物质的组成、结构和ORR活性。
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Chalcogen Chemistry
Chalcogen Chemistry
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