基于限阈空间制备 Mn 单原子催化剂及其电催化析氧性能

Yang Wang; Xiaoqin Zheng; Yang Liu; Kai Zhang; Jiahui Kou; Linbing Sun

doi:10.11862/CJIC.20240165

基于限阈空间制备 Mn 单原子催化剂及其电催化析氧性能

Translated title of the contribution: Mn single⁃atom catalysts based on confined space: Fabrication and the electrocatalytic oxygen evolution reaction performance

Yang Wang, Xiaoqin Zheng, Yang Liu, Kai Zhang, Jiahui Kou, Linbing Sun

Nanjing Tech University

Research output: Contribution to journal › Article › peer-review

Abstract

A simple strategy was adopted to prepare single-atom catalysts (SACs) using mesoporous silica KIT-6 (TOK) without templating agent removal as a carrier and utilizing the confined space between the templating agent and the silica wall. After the Mn-containing precursor was introduced into the confined space of TOK by solid-phase milling, Mn SACs can be rapidly generated during the calcination. Density functional theory calculations and experimental data indicate that the Mn atoms are anchored by Si—OH groups on the carriers and exist as Mn—O—Si. The obtained Mn SACs were applied to the electrocatalytic oxygen evolution reaction, and the experimental results show that the Mn SACs exhibit better catalytic performance than the comparison samples synthesized in a carrier without confined space.

Translated title of the contribution	Mn single⁃atom catalysts based on confined space: Fabrication and the electrocatalytic oxygen evolution reaction performance
Original language	Chinese (Traditional)
Pages (from-to)	2175-2185
Number of pages	11
Journal	Chinese Journal of Inorganic Chemistry
Volume	40
Issue number	11
DOIs	https://doi.org/10.11862/CJIC.20240165
State	Published - Nov 2024

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title = "基于限阈空间制备 Mn 单原子催化剂及其电催化析氧性能",

abstract = "A simple strategy was adopted to prepare single-atom catalysts (SACs) using mesoporous silica KIT-6 (TOK) without templating agent removal as a carrier and utilizing the confined space between the templating agent and the silica wall. After the Mn-containing precursor was introduced into the confined space of TOK by solid-phase milling, Mn SACs can be rapidly generated during the calcination. Density functional theory calculations and experimental data indicate that the Mn atoms are anchored by Si—OH groups on the carriers and exist as Mn—O—Si. The obtained Mn SACs were applied to the electrocatalytic oxygen evolution reaction, and the experimental results show that the Mn SACs exhibit better catalytic performance than the comparison samples synthesized in a carrier without confined space.",

keywords = "confined space, mesoporous silica, oxygen evolution reaction, single-atom catalyst",

author = "Yang Wang and Xiaoqin Zheng and Yang Liu and Kai Zhang and Jiahui Kou and Linbing Sun",

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doi = "10.11862/CJIC.20240165",

language = "繁体中文",

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journal = "Chinese Journal of Inorganic Chemistry",

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TY - JOUR

T1 - 基于限阈空间制备 Mn 单原子催化剂及其电催化析氧性能

AU - Wang, Yang

AU - Zheng, Xiaoqin

AU - Liu, Yang

AU - Zhang, Kai

AU - Kou, Jiahui

AU - Sun, Linbing

PY - 2024/11

Y1 - 2024/11

N2 - A simple strategy was adopted to prepare single-atom catalysts (SACs) using mesoporous silica KIT-6 (TOK) without templating agent removal as a carrier and utilizing the confined space between the templating agent and the silica wall. After the Mn-containing precursor was introduced into the confined space of TOK by solid-phase milling, Mn SACs can be rapidly generated during the calcination. Density functional theory calculations and experimental data indicate that the Mn atoms are anchored by Si—OH groups on the carriers and exist as Mn—O—Si. The obtained Mn SACs were applied to the electrocatalytic oxygen evolution reaction, and the experimental results show that the Mn SACs exhibit better catalytic performance than the comparison samples synthesized in a carrier without confined space.

AB - A simple strategy was adopted to prepare single-atom catalysts (SACs) using mesoporous silica KIT-6 (TOK) without templating agent removal as a carrier and utilizing the confined space between the templating agent and the silica wall. After the Mn-containing precursor was introduced into the confined space of TOK by solid-phase milling, Mn SACs can be rapidly generated during the calcination. Density functional theory calculations and experimental data indicate that the Mn atoms are anchored by Si—OH groups on the carriers and exist as Mn—O—Si. The obtained Mn SACs were applied to the electrocatalytic oxygen evolution reaction, and the experimental results show that the Mn SACs exhibit better catalytic performance than the comparison samples synthesized in a carrier without confined space.

KW - confined space

KW - mesoporous silica

KW - oxygen evolution reaction

KW - single-atom catalyst

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U2 - 10.11862/CJIC.20240165

DO - 10.11862/CJIC.20240165

M3 - 文章

AN - SCOPUS:85209392942

SN - 1001-4861

VL - 40

SP - 2175

EP - 2185

JO - Chinese Journal of Inorganic Chemistry

JF - Chinese Journal of Inorganic Chemistry

IS - 11

ER -

基于限阈空间制备 Mn 单原子催化剂及其电催化析氧性能

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