期刊
JOURNAL OF CO2 UTILIZATION
卷 33, 期 -, 页码 157-165出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.jcou.2019.05.025
关键词
CO2 utilization; Electrochemical reduction; Metal-organic frameworks; Copper; Bismuth
资金
- Spanish Ministry of Economy and Competitiveness (MINECO) [CTQ2016-76231-C2-1-R, MAT2016-75883-C2-1-P]
- Ramon y Cajal programme [RYC-2015-17080]
This work assesses the performance of Cu(II) and Bi(III)-based metal-organic framework (HKUST-1 and CAU-17, respectively) blends into the electroreduction of CO2 to alcohols in a filter-press electrochemical cell. The bimetallic materials are supported onto porous carbon paper to form gas diffusion electrodes with a favorable continuous electrochemical conversion of CO2 to methanol and ethanol, together with formic acid and gas-phase products (i.e. hydrogen, carbon monoxide and ethylene) in a 0.5 M KHCO3 aqueous solution. The maximum reaction rates and faradaic efficiencies for CO2 conversion to methanol and ethanol are r(CH3OH) = 29.7 mu mol.m(-2).s(-1) (FE = 8.6%) and r(C2H5OH) = 48.8 mu mol.m(-2).s(-1) (FE = 28.3%), respectively, at j = 20 mA.cm(-2) which enhanced the values obtained at homometallic Cu and Bi-based materials independently. This denotes a synergic effect of Cu and Bi-based MOFs, associated with a favored interplay between the actives sites and reaction intermediates, prompting methanol formation and C-C coupling reaction to ethanol. The results also show that reaction selectivity to produce alcohols can be controlled by Cu/Bi loading in the electrode surface and current density applied to the system. A 12% bismuth content seems to be the optimum for the production of alcohols (FEalcohols = 36.9%, S-alcohols = 0.32). Regarding the current density, CO2 reduction is more selective to methanol with a j = 10 mA.cm(-2) (FECH3OH = 18.2%), while at j = 20 mA.cm(-2), ethanol becomes the dominant CO2 reduction alcohol (FEC2H5OH = 28.3%). The performance of the Cu/Bi-MOFs remains also pseudostable after 5 h of operation denoting the potential of the mixed metal-organic systems for the utilization of CO2.
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