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W4283394708 endingPage "124993" @default.
W4283394708 startingPage "124993" @default.
W4283394708 abstract "Defect engineering of metal compounds provides an effective strategy for tailoring surface frustrated Lewis pairs and metal sites mediated CO2 coordination model. The indium-doped Bi4Ti3O12-CuIn5S8 (CIS-IBTO-2) was synthesized by hydrothermal method. The Bi-Ti-In trimetallic sites mediated CO2 coordination model provide CO2 activation sites. In addition, the S-scheme heterojunction electric field and the spontaneous polarization synergistically promote the separation and transmission of photogenerated carriers, and finally achieves accurately controlling the CO2 photoreduction selectivity from CO (88.60% with Bi4Ti3O12, 1.07% with CIS-IBTO-2) to CH3OH(7.19% with Bi4Ti3O12, 95.99% with CIS-IBTO-2) and high-efficiency photocatalytic activity(The CO and CH3OH yield of Bi4Ti3O12 is 5.05 μmol.g−1.h−1 and 0.41 μmol.g−1.h−1, respectively, but the CO and CH3OH yield of CIS-IBTO-2 is 0.36 μmol.g−1.h−1 and 32.08 μmol.g−1.h−1, respectively). The Bi-Ti-In mediated CO2 coordination model in CIS-IBTO-2 can control the generation of CH3OH, so the selectivity tailoring from CO to CH3OH is proved to be achievable. This illustrates a new effective strategy of CO2 photoreduction engineering, and is a further step towards customizing CO2 solar refinery products." @default.
W4283394708 created "2022-06-25" @default.
W4283394708 creator A5004503548 @default.
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W4283394708 creator A5091523216 @default.
W4283394708 date "2022-10-01" @default.
W4283394708 modified "2023-10-16" @default.
W4283394708 title "Bi-Ti-In trimetallic sites in the Indium-doped Bi4Ti3O12-CuIn5S8 S-scheme heterojunction for controlling the selectivity of CO2 photoreduction" @default.
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W4283394708 doi "https://doi.org/10.1016/j.fuel.2022.124993" @default.
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