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Organopolymer with dual chromophores and fast charge-transfer properties for sustainable photocatalysis

Author

Listed:
  • Justin D. Smith

    (University of Louisville)

  • Abdelqader M. Jamhawi

    (University of Louisville)

  • Jacek B. Jasinski

    (University of Louisville)

  • Fabrice Gallou

    (Novartis Pharma AG)

  • Jin Ge

    (Case Western Reserve University)

  • Rigoberto Advincula

    (Case Western Reserve University)

  • Jinjun Liu

    (University of Louisville)

  • Sachin Handa

    (University of Louisville)

Abstract

Photocatalytic polymers offer an alternative to prevailing organometallics and nanomaterials, and they may benefit from polymer-mediated catalytic and material enhancements. MPC-1, a polymer photoredox catalyst reported herein, exhibits enhanced catalytic activity arising from charge transfer states (CTSs) between its two chromophores. Oligomeric and polymeric MPC-1 preparations both promote efficient hydrodehalogenation of α-halocarbonyl compounds while exhibiting different solubility properties. The polymer is readily recovered by filtration. MPC-1-coated vessels enable batch and flow photocatalysis, even with opaque reaction mixtures, via “backside irradiation.” Ultrafast transient absorption spectroscopy indicates a fast charge-transfer process within 20 ps of photoexcitation. Time-resolved photoluminescence measurements reveal an approximate 10 ns lifetime for bright valence states. Ultrafast measurements suggest a long CTS lifetime. Empirical catalytic activities of small-molecule models of MPC-1 subunits support the CTS hypothesis. Density functional theory (DFT) and time-dependent DFT calculations are in good agreement with experimental spectra, spectral peak assignment, and proposed underlying energetics.

Suggested Citation

  • Justin D. Smith & Abdelqader M. Jamhawi & Jacek B. Jasinski & Fabrice Gallou & Jin Ge & Rigoberto Advincula & Jinjun Liu & Sachin Handa, 2019. "Organopolymer with dual chromophores and fast charge-transfer properties for sustainable photocatalysis," Nature Communications, Nature, vol. 10(1), pages 1-16, December.
  • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09316-5
    DOI: 10.1038/s41467-019-09316-5
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    Cited by:

    1. Richard Y. Liu & Sheng Guo & Shao-Xiong Lennon Luo & Timothy M. Swager, 2022. "Solution-processable microporous polymer platform for heterogenization of diverse photoredox catalysts," Nature Communications, Nature, vol. 13(1), pages 1-8, December.

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