Efficient photocatalytic production of hydrogen peroxide using dispersible and photoactive porous polymers

Shengdong Wang; Zhipeng Xie; Da Zhu; Shuai Fu; Yishi Wu; Hongling Yu; Chuangye Lu; Panke Zhou; Mischa Bonn; Hai I. Wang; Qing Liao; Hong Xu; Xiong Chen; Cheng Gu

doi:10.1038/s41467-023-42720-6

Efficient photocatalytic production of hydrogen peroxide using dispersible and photoactive porous polymers

Shengdong Wang
, Zhipeng Xie
, Da Zhu
, Shuai Fu
, Yishi Wu
, Hongling Yu
, Chuangye Lu
, Panke Zhou
, Mischa Bonn
, Hai I. Wang
, Qing Liao
, Hong Xu
, Xiong Chen^*
, Cheng Gu^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Developing efficient artificial photocatalysts for the biomimetic photocatalytic production of molecular materials, including medicines and clean energy carriers, remains a fundamentally and technologically essential challenge. Hydrogen peroxide is widely used in chemical synthesis, medical disinfection, and clean energy. However, the current industrial production, predominantly by anthraquinone oxidation, suffers from hefty energy penalties and toxic byproducts. Herein, we report the efficient photocatalytic production of hydrogen peroxide by protonation-induced dispersible porous polymers with good charge-carrier transport properties. Significant photocatalytic hydrogen peroxide generation occurs under ambient conditions at an unprecedented rate of 23.7 mmol g^–1 h^–1 and an apparent quantum efficiency of 11.3% at 450 nm. Combined simulations and spectroscopies indicate that sub-picosecond ultrafast electron “localization” from both free carriers and exciton states at the catalytic reaction centers underlie the remarkable photocatalytic performance of the dispersible porous polymers.

Original language	English
Article number	6891
Pages (from-to)	1-7
Number of pages	7
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-42720-6
Publication status	Published - 28 Oct 2023

Bibliographical note

Publisher Copyright:
© 2023, The Author(s).

Funding

C.G. acknowledges the financial support by the National Natural Science Foundation of China (grant no. 21975078), the Fundamental Research Funds for the Central Universities, and the start-up foundation of Sichuan University. X.C. acknowledges the financial support by the National Natural Science Foundation of China (grant nos. 21972021 and 22111530111).

Funders	Funder number
National Natural Science Foundation of China	21975078
Sichuan University	21972021, 22111530111
Fundamental Research Funds for the Central Universities

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title = "Efficient photocatalytic production of hydrogen peroxide using dispersible and photoactive porous polymers",

abstract = "Developing efficient artificial photocatalysts for the biomimetic photocatalytic production of molecular materials, including medicines and clean energy carriers, remains a fundamentally and technologically essential challenge. Hydrogen peroxide is widely used in chemical synthesis, medical disinfection, and clean energy. However, the current industrial production, predominantly by anthraquinone oxidation, suffers from hefty energy penalties and toxic byproducts. Herein, we report the efficient photocatalytic production of hydrogen peroxide by protonation-induced dispersible porous polymers with good charge-carrier transport properties. Significant photocatalytic hydrogen peroxide generation occurs under ambient conditions at an unprecedented rate of 23.7 mmol g–1 h–1 and an apparent quantum efficiency of 11.3\% at 450 nm. Combined simulations and spectroscopies indicate that sub-picosecond ultrafast electron “localization” from both free carriers and exciton states at the catalytic reaction centers underlie the remarkable photocatalytic performance of the dispersible porous polymers.",

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AU - Wang, Shengdong

AU - Xie, Zhipeng

AU - Zhu, Da

AU - Fu, Shuai

AU - Wu, Yishi

AU - Yu, Hongling

AU - Lu, Chuangye

AU - Zhou, Panke

AU - Bonn, Mischa

AU - Wang, Hai I.

AU - Liao, Qing

AU - Xu, Hong

AU - Chen, Xiong

AU - Gu, Cheng

PY - 2023/10/28

Y1 - 2023/10/28

N2 - Developing efficient artificial photocatalysts for the biomimetic photocatalytic production of molecular materials, including medicines and clean energy carriers, remains a fundamentally and technologically essential challenge. Hydrogen peroxide is widely used in chemical synthesis, medical disinfection, and clean energy. However, the current industrial production, predominantly by anthraquinone oxidation, suffers from hefty energy penalties and toxic byproducts. Herein, we report the efficient photocatalytic production of hydrogen peroxide by protonation-induced dispersible porous polymers with good charge-carrier transport properties. Significant photocatalytic hydrogen peroxide generation occurs under ambient conditions at an unprecedented rate of 23.7 mmol g–1 h–1 and an apparent quantum efficiency of 11.3% at 450 nm. Combined simulations and spectroscopies indicate that sub-picosecond ultrafast electron “localization” from both free carriers and exciton states at the catalytic reaction centers underlie the remarkable photocatalytic performance of the dispersible porous polymers.

AB - Developing efficient artificial photocatalysts for the biomimetic photocatalytic production of molecular materials, including medicines and clean energy carriers, remains a fundamentally and technologically essential challenge. Hydrogen peroxide is widely used in chemical synthesis, medical disinfection, and clean energy. However, the current industrial production, predominantly by anthraquinone oxidation, suffers from hefty energy penalties and toxic byproducts. Herein, we report the efficient photocatalytic production of hydrogen peroxide by protonation-induced dispersible porous polymers with good charge-carrier transport properties. Significant photocatalytic hydrogen peroxide generation occurs under ambient conditions at an unprecedented rate of 23.7 mmol g–1 h–1 and an apparent quantum efficiency of 11.3% at 450 nm. Combined simulations and spectroscopies indicate that sub-picosecond ultrafast electron “localization” from both free carriers and exciton states at the catalytic reaction centers underlie the remarkable photocatalytic performance of the dispersible porous polymers.

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Efficient photocatalytic production of hydrogen peroxide using dispersible and photoactive porous polymers

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