Formation of Cu nanostructured electrode surfaces by an annealing-electroreduction procedure to achieve high-efficiency CO_2 electroreduction

Jinli Qiao; Ping Jiang; Jianshe Liu; Jiujun Zhang

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Formation of Cu nanostructured electrode surfaces by an annealing-electroreduction procedure to achieve high-efficiency CO_2 electroreduction

机译：通过退火-电还原程序形成铜纳米结构电极表面，以实现高效的CO_2电还原

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An effective fibrous Cu electrode surface, created using a procedure combining high-temperature annealing and electroreduction, is explored for CO_2 reduction to produce useful fuels. The nanostructure of this Cu electrode surface contains a layer of nanofibers or nanofibers surrounded by kernels with 30-100 nm diameters. With a specific surface area as high as 458 cm~2 per geometric electrode surface area, this nanostructured electrode is found to have a high activity toward CO_2 reduction, indicated by itsmore positive reduction potentials and higher catalytic current density than a smooth Cu electrode. The Faradaic efficiency for HCOO~- production is 43%, and the electrode surface remains stable during 19 h of electrolysis -- better results than with smooth Cu under identical conditions.

机译：探索了一种有效的纤维状铜电极表面，该表面是通过将高温退火和电还原相结合的过程制成的，用于还原CO_2以生产有用的燃料。该Cu电极表面的纳米结构包含被直径为30-100nm的核围绕的纳米纤维或纳米纤维层。每纳米几何电极表面积的比表面积高达458 cm〜2，发现该纳米结构电极对CO_2的还原具有很高的活性，与光滑的Cu电极相比，具有更高的正还原电位和更高的催化电流密度，这表明该纳米结构的电极具有很高的活性。 HCOO〜-生产的法拉第效率为43％，并且在电解19小时期间电极表面保持稳定-与在相同条件下使用光滑Cu相比，结果更好。

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《Electrochemistry communications》 |2014年第null期|共4页
作者
Jinli Qiao; Ping Jiang; Jianshe Liu; Jiujun Zhang;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
Carbon dioxide; Electrocatalyst; Electroreduction; Cu electrode; Hybrid nanofibers;

机译：二氧化碳;电催化剂;电还原;铜电极;杂化纳米纤维;

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专利

1. Formation of Cu nanostructured electrode surfaces by an annealing-electroreduction procedure to achieve high-efficiency CO_2 electroreduction [J] . Jinli Qiao, Ping Jiang, Jianshe Liu, Electrochemistry communications . 2014,第Null期

机译：通过退火-电还原程序形成铜纳米结构电极表面，以实现高效的CO_2电还原
2. In Situ Infrared Spectroscopy Reveals Persistent Alkalinity near Electrode Surfaces during CO_2 Electroreduction [J] . Yang Kailun, Kas Recep, Smith Wilson A. Journal of the American Chemical Society . 2019,第40期

机译：原位红外光谱显示在CO_2电还原过程中电极表面附近的持久碱度
3. Insights into the carbon balance for CO_2 electroreduction on Cu using gas diffusion electrode reactor designs [J] . Energy & environmental science . 2020,第3期

机译：使用气体扩散电极反应器设计洞悉Cu上CO_2电解还原的碳平衡
4. High Catalytic Cu Electrode for CO_2 Electro reduction from Combined Sphericity and Nanorod Surface Structure Induced by Thermal Process and Pre-electroreduction [C] . Ping Jiang, Jinli Qiao, Mengyang Fan, International symposium on electrochemical synthesis of fuels . 2013

机译：热催化和预电还原诱导的球形度和纳米棒表面结构相结合的高催化铜电极，用于还原CO_2
5. Dioxygen electroreduction on electrode surfaces. [D] . Li, Xiao. 2004

机译：电极表面的双氧电还原。
6. In SituInfrared Spectroscopy Reveals Persistent Alkalinitynear Electrode Surfaces during CO2 Electroreduction [O] . Kailun Yang, †, Recep Kas, -1

机译：原位红外光谱显示持久性碱度CO2还原过程中靠近电极表面
7. Subsurface oxide plays a critical role in CO_2 activation by Cu(111) surfaces to form chemisorbed CO_2 , the first step in reduction of CO_2 [O] . Favaro, Marco, Xiao, Hai, Cheng, Tao, 2017

机译：地下氧化物在Cu（111）表面活化CO_2形成化学吸附的CO_2中起着关键作用，这是还原CO_2的第一步

Formation of Cu nanostructured electrode surfaces by an annealing-electroreduction procedure to achieve high-efficiency CO_2 electroreduction

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