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W3100902296 endingPage "119689" @default.
W3100902296 startingPage "119689" @default.
W3100902296 abstract "The integration of boron doping with high curvature surface is achieved in bismuth catalyst for photoelectrochemical nitrogen fixation. Boron doping in Bi catalyst reduces the energy barrier of the potential-determining step of N 2 reduction and high curvature structure facilitates the N 2 adsorption. The designed catalyst displays NH 3 yield rate of 29.2 mg NH3 g cat. −1 h −1 and Faradaic efficiency of 8.3 % when used as cathode in photoelectrochemical nitrogen fixation. • Integration of B doping with high curvature structure is achieved in Bi catalyst by reducing layered BiOBr nanosheets. • B doping in Bi catalyst reduces the energy barrier of the potential-determining step of nitrogen reduction. • High curvature Bi surface facilitates N2 adsorption. • B-doped Bi nanoroll catalyst displays substantially enhanced photoelectrochemical nitrogen fixation performance. Photoelectrochemical (PEC) nitrogen reduction reaction (NRR), which produces ammonia under ambient conditions by combining the merits of electrocatalysis and photocatalysis, represents an attractive prospect for nitrogen fixation. Limited by the choice of suitable p-type semiconductor, PEC nitrogen fixation should be preferentially achieved by cathodic NRR integrated with photoanode rather than direct photocathodic NRR. Even in such an approach, it still remains elusive how to design catalytically active sites on the dark cathode toward high activity and selectivity in PEC NRR. Herein, we report a new strategy for tailoring cathodic bismuth (Bi) sites with boron (B) doping and rolling curvature. The B doping in Bi matrix greatly reduces the energy barrier of the potential-determining step of N 2 → *NNH in NRR while the high curvature surface on nanorolls facilitates the adsorption of N 2 . The integration of B doping and rolling curvature in a single cathodic catalyst boosts PEC NRR performance when combined with TiO 2 nanorods array as photoanode to harvest light and provide photo-generated electrons. Such a PEC system offers an ammonia yield rate of 29.2 mg NH3 g cat. −1 h −1 and Faradaic efficiency of 8.3 % at a bias of 0.48 V versus RHE in nitrogen fixation. This work provides a guideline for the rational design of highly active and selective metallic catalyst in PEC NRR." @default.
W3100902296 created "2020-11-23" @default.
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W3100902296 date "2021-05-01" @default.
W3100902296 modified "2023-09-25" @default.
W3100902296 title "Boron doping and high curvature in Bi nanorolls for promoting photoelectrochemical nitrogen fixation" @default.
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W3100902296 doi "https://doi.org/10.1016/j.apcatb.2020.119689" @default.
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