太阳能驱动Ni-N掺杂多孔碳高效电催化还原CO2为CO
丁少松, 岳通, 王兴谱, 高家楠, 朱英

Ni-N Doped Porous Carbon for Electrocatalytic Reduction of CO2 into CO Driven by Solar Energy
Ding Shaosong, Yue Tong, Wang Xingpu, Gao Jianan, Zhu Ying
表1 CO2还原催化剂对比
催化剂 电解液 工作电压 产物效率 参考文献
Ni-N掺杂多孔碳(本工作) 0.5 mol?L?1 KHCO3 ?0.66 V vs. RHE CO:92.0%
Ni SAs/N-C 0.5 mol?L?1 KHCO3 ?1.00 V vs. RHE CO:71.9% Zhao et al. [28]
Hexagonal Zn 0.5 mol?L?1 KHCO3 ?0.95 V vs. RHE CO:85.4% Won et al. [29]
AuNP-GNR 0.5 mol?L?1 KHCO3 ?0.47 V vs. RHE CO:87.0% Rogers et al. [30]
COF-367-Co 0.5 mol?L?1 KHCO3 ?0.67 V vs. RHE CO:91.0% Lin et al. [31]
Au cathode 0.5 mol?L?1 KHCO3 ?0.68 V vs. RHE CO:91.0% Hori et al. [32]