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Minireview on microbe-nanomaterial synergies: Fundamental, interface mechanism, characterization and CO2 photo-fixation

Solar driven bio-hybrids are promising composites formed by the integration of microbes and photocatalysts that opens up tremendous opportunities for sustainable CO2 conversion related applications. These microbes-photocatalyst hybrids (MPH) show exceptional solar-to-chemical conversion efficiency w...

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Published in:	Results in surfaces and interfaces 2024-08, Vol.16, p.100272, Article 100272
Main Authors:	Kumar, Manoj, Sahoo, Prakash C., Parida, Kulamani
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Language:	English
Subjects:	CO2,Interface mechanism Microbes Nanomaterials Photocatalyst
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creator	Kumar, Manoj Sahoo, Prakash C. Parida, Kulamani
description	Solar driven bio-hybrids are promising composites formed by the integration of microbes and photocatalysts that opens up tremendous opportunities for sustainable CO2 conversion related applications. These microbes-photocatalyst hybrids (MPH) show exceptional solar-to-chemical conversion efficiency with high selectivity and are proposed to address the associated limitation of natural and artificial photosynthesis. MPH includes the advantageous features of both microbe and inorganic units that makes it a promising candidate in this area of research. This review presents brief ideas on challenges of natural photosynthesis, and an introduction to artificial photocatalysis highlighting reported literatures. Further, we discuss various state of art MPH systems reported towards CO2 conversionalong with the detailed interfacial charge transfer mechanism between micro-organism and photocatalyst. The review also elaborates different developed, efficiency and selectivity improvement strategies with suitable examples. Finally, the current challenges and future prospects in this direction are discussed well. Microbes-inorganic bio-hybrid systems very promising artificial photosynthesis composite depicting enhanced CO2 fixation efficiency with high selectivity. [Display omitted] •Bio-hybrids shows exceptional CO2 photoconversion, high efficiency and selectivity.•State of art hybrid systems are discussed in details along with important findings.•The review elucidates interfacial charge transfer mechanisms of Bio-Hybrid.•Challenges and future prospects of bio-hybrids in CO2 conversion discussed in brief.
doi_str_mv	10.1016/j.rsurfi.2024.100272
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subjects	CO2,Interface mechanism Microbes Nanomaterials Photocatalyst
title	Minireview on microbe-nanomaterial synergies: Fundamental, interface mechanism, characterization and CO2 photo-fixation
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