Journal
JOURNAL OF COLLOID AND INTERFACE SCIENCE
Volume 653, Issue -, Pages 94-107Publisher
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jcis.2023.09.059
Keywords
Confinement; Photocatalysis; S-scheme heterojunction; Electric double layer
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This study successfully synthesized BiOI/B-Bi2O3 heterojunction using electrophoretic deposition technique, exhibiting superior photocatalytic activity and stability. Theoretical calculations and experimental results revealed the importance of carrier transfer process and electric double layer structure in photocatalytic reactions.
In the realm of photocatalysis, understanding the interface issues (solid/solid and solid/liquid) inherent in heterojunction at the atomic level is the ultimate for engineering an efficient photocatalyst. Herein, an electrophoretic deposition technique is adopted to synthesize BiOI/B-Bi2O3 heterojunction, exhibiting superior photocatalytic activity and stability in H2 evolution (91.5 mu mol g-1 h-1) and H2O2 production (11.3 mg L-1 h-1). Combined with the experimental and computational results, a lower free energy of hydrogen evolution reaction (252.4 meV) has been observed contrast to BiOI and B-Bi2O3 samples. A carrier transfer process of like S-scheme heterojunction is proposed based on density of states (DOS) and carrier distribution calculations. The theoretical calculations illustrate the transition dipole moment, migration and accumulation of carrier in BiOI/B-Bi2O3 heterojunction. Subsequent ab initio molecular dynamics (AIMD) results of solid/liquid interface systems (BiOI/ B-Bi2O3/H2O and B-Bi2O3/H2O) unravel the interface H2O (solvent) behaviors. The local aggregation of photo generated electrons in BiOI/B-Bi2O3/H2O leads to a large potential drop, high proton migration rate and the steady electric double layer (EDL) structure compared to the B-Bi2O3/H2O, which facilitates the occurrence of photocatalytic reactions in solution. In addition to offering new insights into the hydrogen evolution and proton transfer in the EDL model and the association between the heterojunction effect and EDL structure, this work also introduces a novel design strategy for Bi-based heterojunctions.
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