Unveiling the mechanism of CO oxidation catalyzed by sulfur-doped fullerenes with the DFT calculations

IF 3.1 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Lijun Qu , Haoyu Zhang , Shengwei Huang , Hai Wang , Shihai Yan
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引用次数: 0

Abstract

As an important intermediate for dual carbon targets, catalytic CO oxidation under mild conditions has received sufficient attention, as the reaction mechanism is directly related to the type of employed catalyst. High performance computing is performed with density functional theory to elucidate the mechanism of CO oxidation catalyzed by sulfur doped fullerene (C60-xSx (x = 1 ∼ 3)). The total activation energy for the first CO oxidation on C59S, C58S2, and C57S3 increases gradually, as implies that the CO oxidation on C59S should be easier than those on the other two dopants. Distinct electrons (0.852 e and 1.479 e) are transferred to oxygen atoms (O2) from C59S with the adsorption of O2 and CO. There is no synergistic effect for the doping S atoms. All elementary reactions on C59S are exothermic processes. This means that C59S is a potential material for addressing environmental protection issues and H2 purification for fuel cell applications.

利用 DFT 计算揭示掺硫富勒烯催化 CO 氧化的机理
作为双碳目标的重要中间体,温和条件下催化 CO 氧化反应受到了足够的关注,因为反应机理与所使用催化剂的类型直接相关。我们利用密度泛函理论进行了高性能计算,以阐明掺硫富勒烯(C60-xSx (x = 1 ∼ 3))催化 CO 氧化的机理。C59S、C58S2 和 C57S3 上第一次 CO 氧化的总活化能逐渐增加,这意味着 C59S 上的 CO 氧化比其他两种掺杂物上的 CO 氧化更容易。随着 O2 和 CO 的吸附,不同的电子(0.852 e 和 1.479 e)从 C59S 转移到氧原子(O2)上。掺杂 S 原子不会产生协同效应。C59S 上的所有基本反应都是放热过程。这意味着 C59S 是解决环境保护问题和燃料电池应用中 H2 净化问题的潜在材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Carbon Trends
Carbon Trends Materials Science-Materials Science (miscellaneous)
CiteScore
4.60
自引率
0.00%
发文量
88
审稿时长
77 days
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