Electrochemistry (Sep 2020)

Electrochemical CO2 Reduction Using Gas Diffusion Electrode Loading Ni-doped Covalent Triazine Frameworks in Acidic Electrolytes

  • Yuxin WU,
  • Kazuhide KAMIYA,
  • Takuya HASHIMOTO,
  • Rino SUGIMOTO,
  • Takashi HARADA,
  • Katsushi FUJII,
  • Shuji NAKANISHI

DOI
https://doi.org/10.5796/electrochemistry.20-64036
Journal volume & issue
Vol. 88, no. 5
pp. 359 – 364

Abstract

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Ni-doped covalent triazine frameworks (Ni-CTF) has been known as an efficient electrocatalysts that achieve conversion of carbon dioxide (CO2) to carbon monoxide (CO) with the faradaic efficiency (FE) exceeding 90% in neutral electrolytes. Here we report that the FE can reach 60% even in acidic electrolytes, where the hydrogen evolution can proceed competitively, by loading Ni-CTF on gas diffusion electrode (GDE). In the presence of Zn(II) ions, zinc hydroxide analogues that can be formed only in alkaline conditions were deposited on the GDE during the CO2 reduction in an electrolyte with a bulk pH of 2. On the other hand, when a normal plate electrode (PE) was used, the FE was only 1.2% in an electrolyte with the same pH, and the zinc hydroxide analogues were not formed. These results indicate that the local pH around GDE increased during the cathodic process, which led to an increasing FE of CO2 reduction even in an acidic electrolyte.

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