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Acidic electroreduction CO2 to formic acid via interfacial modification of Bi nanoparticles at industrial-level current

Nano Research [2024]
Dong Tian, Li Hongdong, Wang Zhenhui, Geng Yanling, Chang Rui, Tian Xiaofeng, Lai Jianping, Feng Shouhua, Wang Lei
ABSTRACT

Electrocatalytic CO 2 reduction reaction (CO 2 RR) in acidic media is a promising approach to overcome the unavoidable formation of carbonates in alkaline or neutral electrolytes. However, the proton-rich environment near the catalyst surface favors hydrogen evolution reactions (HER), leading to lower energy efficiency of the desired products, especially in industrial-level current densities. Here, quaternary ammonium cationic surfactant (cetyltrimethylammonium bromide (CTAB)) was introduced into acidic electrolyte to modulate the interfacial microenvironment, which greatly enhanced CO 2 electroreduction to formic acid (HCOOH) at the Bi/C nanoparticles electrode. Using a Bi/C nanoparticles electrode with CTAB added, constant production of formic acid was enabled with a cathodic energy efficiency of > 40% and maximum FE HCOOH (FE = Faradaic efficiency) of 86.2% at −400 mA·cm −2 over 24 h. Combined with in-situ attenuated total reflection Fourier transform infrared spectroscopy, the concentration of *OCHO intermediates significantly increased after CTAB modification, confirming that the hydrophobic interface microenvironment formed by dynamic adsorption of positively charged long alkyl chains on Bi/C nanoparticle electrodes inhibited HER and improved the selectivity of CO 2 RR to HCOOH.

MATERIALS

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