S. Komatsu et al., ELECTROCHEMICAL REDUCTION OF CO2 AT SB AN D BI ELECTRODES IN KHCO3 SOLUTION, Denki Kagaku Oyobi Kogyo Butsuri Kagaku, 63(3), 1995, pp. 217-224
Electrochemical reduction of CO2 in KHCO3 solutions was studied using
differently prepared Sb and Bi electrodes. With Sb plated electrodes,
H-2 was produced mainly with a small amount of HCOOH, i.e., Sb was not
effective for CO2 reduction. On the other hand, with Bi electrodes, H
COOH was produced in high current efficiencies with a trace amount of
CO. The current efficiency and the rate for HCOOH formation were large
ly improved by the use of Bi plated electrodes, and dependent on the k
ind of electrode substrates on which Bi was plated. The utility of a B
i plated glassy carbon electrode gave HCOOH in near 100% current effic
iency in the potential region of -1.4 to -1.7 V vs. SCE at the product
ion rate of ca. 1A . dm(-2). The current efficiency seems to be depend
ent on the purity of the electrode surface and the particle size of Bi
plated rather than the roughness factor of the electrode surface.