Dye sensitization of TiO2 relevant to photocatalytic hydrogen generation: Current research trends and prospects
Research over dye-sensitized hydrogen generation using TiO2 semiconductor photocatalysts has gained abiding importance over the past three decades due to its manifold advantages over other photocatalytic systems for the production of clean energy fuels. The single-step excitation of the electrons ov...
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Veröffentlicht in: | Journal of photochemistry and photobiology. C, Photochemistry reviews Photochemistry reviews, 2023-12, Vol.57, p.100621, Article 100621 |
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Zusammenfassung: | Research over dye-sensitized hydrogen generation using TiO2 semiconductor photocatalysts has gained abiding importance over the past three decades due to its manifold advantages over other photocatalytic systems for the production of clean energy fuels. The single-step excitation of the electrons over the sensitizer molecules anchored at the TiO2 semiconductor serves as a driving source to facilitate the electron effect transfers, thus prompting the visible-light driven photocatalytic hydrogen generation activities. Though many review articles that evaluate the performance of such dye-sensitized semiconductor particulate systems are available in the literature, research progress made in the last few years since 2016 is not yet systematically reviewed. In this article, we therefore, systematically review the development of new dye-sensitizers that include metal-free organic dyes, metal-based sensitizers, and donor-bridged-acceptor (D-π-A) type dye-sensitizers, and their performances in sensitization of the TiO2 semiconductor photocatalyst towards visible light driven hydrogen generation through water splitting. It has been chronicled that the aforesaid sensitizers are capable of harvesting a broader part of the solar spectrum, and could achieve photocatalytic H2 production with varying degrees of success. The results discussed in this review afford a significant scope of rationalizating the factors that govern the H2 production activity over the dye-modified TiO2 photocatalyst, and provide a basis for further research towards the realization of high-performing dye-sensitized H2 production photocatalytic system. The prospect of artificial intelligence (AI)-machine learning (ML) based modeling for quicker design and development of dye-sensitized TiO2 based photocatalytic solar to fuel conversion system has been briefly discussed in the article.
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•Dye sensitization of TiO2 semiconductor for photocatalytic hydrogen generation.•Dye design strategy for harvesting broader spectrum of visible light.•Advancement of metal-free and metal-based organic dye-sensitizers.•Prospect of donor-π-space-acceptor type dye-sensitizers in hydrogen generation.•Prospect of dye-sensitization TiO2 photocatalysts in solar to fuel conversion. |
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ISSN: | 1389-5567 1873-2739 |
DOI: | 10.1016/j.jphotochemrev.2023.100621 |