Controllable Synthesis of Few-Layer Bismuth Subcarbonate by Electrochemical Exfoliation for Enhanced CO2 Reduction Performance

Zhang Ying; Zhang Xiaolong; Ling Yunzhi; Li Fengwang; Bond Alan M.; Zhang Jie

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Controllable Synthesis of Few-Layer Bismuth Subcarbonate by Electrochemical Exfoliation for Enhanced CO2 Reduction Performance

机译：通过电化学剥离可控合成几层铋亚碳酸酯，提高CO2减少性能

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Two-dimensional (2D) engineering of materials has been recently explored to enhance the performance of electrocatalysts by reducing their dimensionality and introducing more catalytically active ones. In this work, controllable synthesis of few-layer bismuth subcarbonate nanosheets has been achieved via an electrochemical exfoliation method. These nanosheets catalyse CO2 reduction to formate with high faradaic efficiency and high current density at a low overpotential owing to the 2D structure and co-existence of bismuth subcarbonate and bismuth metal under catalytic turnover conditions. Two underlying fast electron transfer processes revealed by Fourier-transformed alternating current voltammetry (FTacV) are attributed to CO2 reduction at bismuth subcarbonate and bismuth metal. FTacV results also suggest that protonation of CO2 center dot(-) is the rate determining step for bismuth catalysed CO2 reduction.

机译：最近探讨了二维（2D）材料工程，通过减少其维度并引入更催化活性活性的材料来增强电催化剂的性能。在这项工作中，通过电化学剥离法实现了几层铋亚碳酸盐纳米片的可控合成。这些纳米蛋白酶催化CO 2还原，以催化周转条件下的2D结构和铋金属的2D结构和共存，在低过电位下以高法率和高电流密度进行培养。由傅里叶转化的交流伏安法（FTACV）揭示的两个底层快电子传递方法归因于铋亚碳酸铋和铋金属的CO 2。 FTACV结果还表明CO2中心点（ - ）的质子化是铋催化的CO2减少的速率确定步骤。

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来源
《Angewandte Chemie》 |2018年第40期|共5页
作者
Zhang Ying; Zhang Xiaolong; Ling Yunzhi; Li Fengwang; Bond Alan M.; Zhang Jie;
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作者单位

Monash Univ Sch Chem Wellington Rd Clayton Vic 3800 Australia;

Monash Univ Sch Chem Wellington Rd Clayton Vic 3800 Australia;

Monash Univ Dept Chem Engn Wellington Rd Clayton Vic 3800 Australia;

Monash Univ Sch Chem Wellington Rd Clayton Vic 3800 Australia;

Monash Univ Sch Chem Wellington Rd Clayton Vic 3800 Australia;

Monash Univ Sch Chem Wellington Rd Clayton Vic 3800 Australia;

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原文格式 PDF
正文语种 eng
中图分类应用化学;
关键词
2D materials; bismuth subcarbonate; CO2 reduction; electrocatalysts; FTac voltammetry;

机译：2D材料;铋亚碳酸盐;CO2减少;电催化剂;FTAC伏安法;

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专利

1. Controllable Synthesis of Few-Layer Bismuth Subcarbonate by Electrochemical Exfoliation for Enhanced CO2 Reduction Performance [J] . Zhang Ying, Zhang Xiaolong, Ling Yunzhi, Angewandte Chemie . 2018,第40期

机译：通过电化学剥离可控合成几层铋亚碳酸酯，提高CO2减少性能
2. Porous flower-like ZnCo2O4 and ZnCo2O4@C composite: a facile controllable synthesis and enhanced electrochemical performance [J] . Wang Ling, Li Di, Zhang Jian, Ionics . 2020,第9期

机译：多孔花型ZnCo2O4和ZnCo2O4 @ C复合材料：可控的合成和增强的电化学性能
3. Electrochemical Transformation of Facet-Controlled BiOI into Mesoporous Bismuth Nanosheets for Selective Electrocatalytic Reduction of CO2 to Formic Acid [J] . Wu Dan, Liu Jianwen, Liang Yue, ChemSusChem . 2019,第20期

机译：方形控制生物的电化学转化为介孔铋纳米片，用于选择性电催化减少CO2至甲酸
4. Anionic Electrochemical Exfoliation of Few-Layer Graphene Nano-Sheets: An Emphasis on Characterization [C] . Azmeera Srinivasanaik, Amlan Das, Archana Mallik International Conference on Processing and Characterization of Materials . 2020

机译：几层石墨烯纳米片的阴离子电化学剥离：重点是表征
5. Mechanistic Insights into the Electrochemical CO2 Reduction Reaction Using Surface Enhanced Infrared Spectroscopy [D] . Malkani, Arnav S. 2021

机译：使用表面增强的红外光谱法进入电化学二氧化碳还原反应的机械洞察
6. Preparation of Few-Layer Bismuth Selenide by Liquid-Phase-Exfoliation and Its Optical Absorption Properties [O] . Liping Sun, Zhiqin Lin, Jian Peng, -1

机译：液相剥脱法制备多层硒化铋及其光吸收性能
7. Controllable Synthesis of Few‐Layer Bismuth Subcarbonate by Electrochemical Exfoliation for Enhanced CO 2 Reduction Performance [O] . Ying Zhang, Xiaolong Zhang, Yunzhi Ling, 2018

机译：通过电化学剥离来控制几层铋亚碳酸酯的合成，用于增强CO 2减少性能

Controllable Synthesis of Few-Layer Bismuth Subcarbonate by Electrochemical Exfoliation for Enhanced CO2 Reduction Performance

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