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Ni-N Doped Porous Carbon for Electrocatalytic Reduction of CO2 into CO Driven by Solar Energy

大学化学 Pub Date : 2020-01-01 DOI:10.3866/pku.dxhx201912044
Ding Shaosong, Y. Tong, Wang Xingpu, Gao Jian’an, Z. Ying
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Abstract

: The electroreduction of CO 2 into value-added chemicals and fuels has garnered a broad interest by using renewable clean energy, due to both alleviating global warming and completing the carbon cycle. Herein, a high-performance Ni-N doped porous carbon catalyst was prepared through pyrolysis of hydrogen containing peptone, NiCl 2 , and NaCl made by a freeze dry method. The Ni-N-doped porous carbon catalyst displayed an excellent performance of CO 2 electroreduction with a Faraday efficiency of 92.0% at − 0.66 V ( vs . RHE), 550 mV overpotential , and 2.5 mA · cm − 2 current density. The catalytic performances were attributed to the Ni-N active sites and porous structures. In addition, CO 2 electroreduction to CO was performed continuously by using solar energy, which may provide a valuable reference for carbon cycle in future.
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Ni-N掺杂多孔碳在太阳能驱动下电催化还原CO2成CO的研究
通过使用可再生清洁能源,将二氧化碳电还原成增值化学品和燃料已引起广泛的兴趣,因为它既可以缓解全球变暖,又可以完成碳循环。本文以冻干法制备的蛋白胨、NiCl 2和NaCl为原料,通过热解制备了高性能的Ni-N掺杂多孔碳催化剂。在−0.66 V (vs)下,ni - n掺杂多孔碳催化剂具有良好的CO 2电还原性能,法拉第效率为92.0%。RHE), 550 mV过电位和2.5 mA·cm−2电流密度。催化剂的催化性能主要取决于Ni-N活性位点和多孔结构。此外,利用太阳能连续电还原co2为CO,可为未来碳循环提供有价值的参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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大学化学
大学化学
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