From photocatalysis to photon–phonon co-driven catalysis for methanol reforming to hydrogen and valuable by-products

Wang, Hui; Harkou, Eleana; Constantinou, Achilleas; Al–Salem, S.M.; Manos, George; Tang, Junwang

doi:10.1039/d4cs00551a

reviewChemical Society ReviewsJan 1, 2025HYBRID OA

From photocatalysis to photon–phonon co-driven catalysis for methanol reforming to hydrogen and valuable by-products

HWHui Wang EHEleana Harkou ACAchilleas Constantinou SAS.M. Al–Salem GMGeorge Manos

Hunan University · University College London · +3 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

Advanced techniques and their disadvantages. Beyond this, particular focus has been placed on the discussion of co-driven processes involving coupling of photons (photocatalysis) with phonons (thermal catalysis) - the concept of photon-phonon co-driven catalysis - for methanol reforming and cutting-edge reactor design strategies, in order to enhance the overall process efficiency and applicability. Concluding with forward-looking insights, this review aims to provide valuable guidance for future research on hydrogen release through methanol reforming.

Citation impact

56

total citations

FWCI: 15.84
Percentile: 100%
References: 184

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Authors

6

Topics & keywords

Topics

Keywords

Photocatalysis
Catalysis
Methanol
Hydrogen
Photon
Hydrogen production
Reactor design
Phonon

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