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Sunlight-promoted CO2 electroreduction with staggered p-n heterojunction by indium-doped bismuth 3D nanoflower structure on oxidized copper foam as self-standing photoelectric cathode over a wide potential window

APPLIED CATALYSIS B-ENVIRONMENTAL [2025]
Lulu Li, Bing Nan, Neng Neng Xu, Ge Bai, Ruinan He, Yuyu Liu, Jinli Qiao
ABSTRACT

Exploiting suitable photocathodes to achieve high photocurrent and long-term endurance is still a great challenge in photoelectrocatalytic CO 2 reduction (PEC CO 2 ) reactions. Herein, an In-doped Bi 2 O 3 decorated oxidized copper foam (CBIO/CF) self-standing photoelectric cathode is well designed by the self-assembly process without an externally added binder. Via sunlight-promoted strategy, CBIO/CF with a unique 3D hierarchical nanoflower structure displays a superior faradaic efficiency of 90.0 % towards HCOOH over a wide potential window from −0.87 ∼ −1.17 V RHE and reaches 97.8 % at −0.87 V RHE with a partial current density of 14.41 mA cm −2 . The in-situ Fourier transform infrared spectroscopy (FTIR) analysis demonstrates the abundant oxygen defects induced by In doping boost CBIO/CF absorbing substantive intermediate species related with formate generations, and porous structure accelerating mass transportation. Moreover, the well-designed staggered p-n heterojunctions of Cu 2 O and In-doped Bi 2 O 3 on the surface of catalysts favor the generation and separation of electron/hole pairs and contribute to the photocatalytic reduction of CO 2 under a bias voltage. This work paves the way for rational regulation of self-supporting photoelectrode for PEC CO 2 to HCOOH with suitable conduction band valence bands and high performance and stability.

MATERIALS

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