银修饰的铜微球上CO选择性电化学转化为甲烷

Selective Electrochemical Conversion of CO into Methane on Ag-Decorated Copper Microsphere.

作者信息

Dahal Rabin, Srivastava Rohit, Prasad Bastakoti Bishnu

机构信息

Department of Chemistry, North Carolina A & T State University, 1601 E Market St, Greensboro, NC, 27411, USA.

Catalysis & Hydrogen Research Lab, Department of Petroleum Engineering, School of Energy Technology, Pandit Deendayal Energy University, Gandhinagar, Gujarat, India.

出版信息

ChemistryOpen. 2025 Jan;14(1):e202400173. doi: 10.1002/open.202400173. Epub 2024 Oct 24.

DOI:10.1002/open.202400173

PMID:39446654

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11726645/

Abstract

We synthesized the silver-decorated copper microsphere via the hydrothermal method followed by photoreduction of silver ions. Sub 100 nm Ag nanoparticles anchored on the surface of Cu microspheres enhance the electrochemical performance and the selectivity of the CO reduction into CH. Incorporating Ag nanoparticles onto Cu lowers the charge transfer resistance, enhancing the catalyst's conductivity and active site and increasing the rate of CO reduction. The faradaic efficiency of silver nanoparticles decorated copper microsphere for methane was 70.94 %, almost twice that of a copper microsphere (44 %). The electrochemical performance showed higher catalytic properties, stability, and faradaic efficiency of silver-decorated copper microspheres.

摘要

我们通过水热法合成了银修饰的铜微球，随后对银离子进行光还原。锚定在铜微球表面的亚100 nm银纳米颗粒提高了电化学性能以及将CO还原为CH的选择性。将银纳米颗粒结合到铜上降低了电荷转移电阻，提高了催化剂的导电性和活性位点，并提高了CO还原速率。银纳米颗粒修饰的铜微球对甲烷的法拉第效率为70.94%，几乎是铜微球（44%）的两倍。电化学性能表明，银修饰的铜微球具有更高的催化性能、稳定性和法拉第效率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0af1/11726645/5d58d73f2b09/OPEN-14-e202400173-g004.jpg

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银修饰的铜微球上CO选择性电化学转化为甲烷

Selective Electrochemical Conversion of CO into Methane on Ag-Decorated Copper Microsphere.

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