posted on 2023-12-15, 18:42authored byLu Chen, Yuan Xu, Liuyu Su, Tao He, Liqiu Zhang, Hongxia Shen, Qiong Cheng, Lichun Liu, Song Bai, Soon Hyung Hong
A novel
copper nanoparticle variant, denoted as Cu98Ni2 NPs, which incorporate Ni atoms in an atomically
dispersed
manner, has been successfully synthesized via a straightforward one-pot
electrochemical codeposition process. These nanoparticles were subsequently
employed as an anode to facilitate the oxidation of furfural, leading
to the production of hydrogen gas. Voltammetric measurements revealed
that the inclusion of trace amounts of Ni atoms in the nanoparticles
resulted in a pronounced synergistic electronic effect between Cu
and Ni. Consequently, a 43% increase in current density at 0.1 V was
observed in comparison to pure Cu NPs. Importantly, when the Cu98Ni2 NPs were irradiated with visible light, a
remarkable current density enhancement factor of 505% at 0.1 V was
achieved relative to that of pure Cu NPs in the absence of light.
This enhancement can be attributed to localized surface plasmon resonance
induced by visible light, which triggers photothermal and photoelectric
effects. These effects collectively contribute to the significant
overall improvement in the electrocatalytic oxidation of furfural,
leading to enhanced hydrogen evolution.