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Nature Communications, volume 11, issue 1, publication number 6095

Bismuth atom tailoring of indium oxide surface frustrated Lewis pairs boosts heterogeneous CO2 photocatalytic hydrogenation

Tingjiang Yan ^{1, 2}

Na Li ³

Linlin Wang ¹

Weiguang Ran ¹

Paul N Duchesne ²

Lili Wan ²

Nhat Truong Nguyen ²

Lu Wang ²

Meikun Xia ²

Geoffrey A Ozin ²

Hide authors affiliations Show authors affiliations: 3 affiliations

The Key Laboratory of Life-Organic Analysis, College of Chemistry and Chemical Engineering, Qufu Normal University, Qufu, People’s Republic of China |

Materials Chemistry and Nanochemistry Research Group, Solar Fuels Cluster, Department of Chemistry, University of Toronto, 80 St. George Street, Toronto, Canada |

Qufu Normal University Library, Qufu Normal University, Qufu, People’s Republic of China |

Publication type: Journal Article

Publication date: 2020-11-30

Springer Nature

Journal: Nature Communications

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Impact factor: 16.6

ISSN: 20411723

DOI: 10.1038/s41467-020-19997-y

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General Chemistry

General Biochemistry, Genetics and Molecular Biology

General Physics and Astronomy

Abstract

The surface frustrated Lewis pairs (SFLPs) on defect-laden metal oxides provide catalytic sites to activate H2 and CO2 molecules and enable efficient gas-phase CO2 photocatalysis. Lattice engineering of metal oxides provides a useful strategy to tailor the reactivity of SFLPs. Herein, a one-step solvothermal synthesis is developed that enables isomorphic replacement of Lewis acidic site In3+ ions in In2O3 by single-site Bi3+ ions, thereby enhancing the propensity to activate CO2 molecules. The so-formed BixIn2-xO3 materials prove to be three orders of magnitude more photoactive for the reverse water gas shift reaction than In2O3 itself, while also exhibiting notable photoactivity towards methanol production. The increased solar absorption efficiency and efficient charge-separation and transfer of BixIn2-xO3 also contribute to the improved photocatalytic performance. These traits exemplify the opportunities that exist for atom-scale engineering in heterogeneous CO2 photocatalysis, another step towards the vision of the solar CO2 refinery. Surface frustrated Lewis pairs (SFLPs) provide a unique class of active sites that enable efficient gas-phase CO2 photocatalysis. How to tailor the reactivity of the SFLPs represents a major challenge, which the authors address here by single-site Bi3+ ion substitution of the SFLPs.

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Yan T. et al. Bismuth atom tailoring of indium oxide surface frustrated Lewis pairs boosts heterogeneous CO2 photocatalytic hydrogenation // Nature Communications. 2020. Vol. 11. No. 1. 6095

GOST all authors (up to 50) Copy

Yan T., Li N., Wang L., Ran W., Duchesne P. N., Wan L., Nguyen N. T., Wang L., Xia M., Ozin G. A. Bismuth atom tailoring of indium oxide surface frustrated Lewis pairs boosts heterogeneous CO2 photocatalytic hydrogenation // Nature Communications. 2020. Vol. 11. No. 1. 6095

RIS |

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RIS Copy

TY - JOUR

DO - 10.1038/s41467-020-19997-y

UR - https://doi.org/10.1038/s41467-020-19997-y

TI - Bismuth atom tailoring of indium oxide surface frustrated Lewis pairs boosts heterogeneous CO2 photocatalytic hydrogenation

T2 - Nature Communications

AU - Yan, Tingjiang

AU - Li, Na

AU - Wang, Linlin

AU - Ran, Weiguang

AU - Duchesne, Paul N

AU - Wan, Lili

AU - Nguyen, Nhat Truong

AU - Wang, Lu

AU - Xia, Meikun

AU - Ozin, Geoffrey A

PY - 2020

DA - 2020/11/30

PB - Springer Nature

IS - 1

VL - 11

SN - 2041-1723

ER -

BibTex

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BibTex Copy

@article{2020_Yan,

author = {Tingjiang Yan and Na Li and Linlin Wang and Weiguang Ran and Paul N Duchesne and Lili Wan and Nhat Truong Nguyen and Lu Wang and Meikun Xia and Geoffrey A Ozin},

title = {Bismuth atom tailoring of indium oxide surface frustrated Lewis pairs boosts heterogeneous CO2 photocatalytic hydrogenation},

journal = {Nature Communications},

year = {2020},

volume = {11},

publisher = {Springer Nature},

month = {nov},

url = {https://doi.org/10.1038/s41467-020-19997-y},

number = {1},

doi = {10.1038/s41467-020-19997-y}

}

Found error?

Publisher

Springer Nature

Journal

Nature Communications

Quartile SCImago

Quartile WOS

Impact factor

16.6

ISSN

20411723 ()