用于低过电位下选择性CO电催化的二维四羟基醌铜导电金属有机框架

2D Copper Tetrahydroxyquinone Conductive Metal-Organic Framework for Selective CO Electrocatalysis at Low Overpotentials.

作者信息

Majidi Leily, Ahmadiparidari Alireza, Shan Nannan, Misal Saurabh N, Kumar Khagesh, Huang Zhehao, Rastegar Sina, Hemmat Zahra, Zou Xiaodong, Zapol Peter, Cabana Jordi, Curtiss Larry A, Salehi-Khojin Amin

机构信息

Department of Mechanical and Industrial Engineering, University of Illinois at Chicago, Chicago, IL, 60607, USA.

Materials Science Division, Argonne National Laboratory, Lemont, IL, 60439, USA.

出版信息

Adv Mater. 2021 Mar;33(10):e2004393. doi: 10.1002/adma.202004393. Epub 2021 Feb 1.

DOI:10.1002/adma.202004393

PMID:33522009

Abstract

Metal-organic frameworks (MOFs) are promising materials for electrocatalysis; however, lack of electrical conductivity in the majority of existing MOFs limits their effective utilization in the field. Herein, an excellent catalytic activity of a 2D copper (Cu)-based conductive MOF, copper tetrahydroxyquinone (CuTHQ), is reported for aqueous CO reduction reaction (CO RR) at low overpotentials. It is revealed that CuTHQ nanoflakes (NFs) with an average lateral size of 140 nm exhibit a negligible overpotential of 16 mV for the activation of this reaction, a high current density of ≈173 mA cm at -0.45 V versus RHE, an average Faradaic efficiency (F.E.) of ≈91% toward CO production, and a remarkable turnover frequency as high as ≈20.82 s . In the low overpotential range, the obtained CO formation current density is more than 35 and 25 times higher compared to state-of-the-art MOF and MOF-derived catalysts, respectively. The operando Cu K-edge X-ray absorption near edge spectroscopy and density functional theory calculations reveal the existence of reduced Cu (Cu ) during CO RR which reversibly returns to Cu after the reaction. The outstanding CO catalytic functionality of conductive MOFs (c-MOFs) can open a way toward high-energy-density electrochemical systems.

摘要

金属有机框架材料（MOFs）是用于电催化的有前景的材料；然而，大多数现有MOFs缺乏导电性限制了它们在该领域的有效利用。在此，报道了一种二维铜（Cu）基导电MOF，四羟基醌铜（CuTHQ）在低过电位下对水相CO还原反应（CO RR）具有优异的催化活性。结果表明，平均横向尺寸为140 nm的CuTHQ纳米片（NFs）对该反应的活化表现出可忽略不计的16 mV过电位，在相对于可逆氢电极（RHE）为 -0.45 V时具有≈173 mA cm²的高电流密度，对CO生成的平均法拉第效率（F.E.）约为91%，以及高达≈20.82 s⁻¹的显著周转频率。在低过电位范围内，所获得的CO生成电流密度分别比最先进的MOF和MOF衍生催化剂高出35倍和25倍以上。原位Cu K边X射线吸收近边光谱和密度泛函理论计算揭示了在CO RR过程中存在还原态的Cu（Cu⁰），反应后其可逆地恢复为Cu²⁺。导电MOFs（c-MOFs）出色的CO催化功能可为高能量密度电化学系统开辟一条道路。

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用于低过电位下选择性CO电催化的二维四羟基醌铜导电金属有机框架

2D Copper Tetrahydroxyquinone Conductive Metal-Organic Framework for Selective CO Electrocatalysis at Low Overpotentials.

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