Synergistically boosting highly selective CO2–to–CO photoreduction over BiOCl nanosheets via in-situ formation of surface defects and non-precious metal nanoparticles
Abstract
Hollow hierarchical BiOCl (BOC) assembled by nanosheets with highly exposed (001) facet is synthesized via a gas-bubble-template strategy. The as-synthesized BOC is further modified by thermal treatment in N2 to in-situ introduce oxygen vacancies (OVs) and metallic bismuth (Bi0) nanoparticles from the BOC lattice (Bi0/OVs-BOC). Thermal treatment in N2 enables an intimate contact between OVs-BOC and Bi0 nanoparticles, which is conducive to the...
Paper Details
Title
Synergistically boosting highly selective CO2–to–CO photoreduction over BiOCl nanosheets via in-situ formation of surface defects and non-precious metal nanoparticles
Published Date
Nov 1, 2021
Volume
297
Pages
120413 - 120413
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