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Autori principali: Carmeli, Itai, Carmeli, Chanoch
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2411.12618
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author Carmeli, Itai
Carmeli, Chanoch
author_facet Carmeli, Itai
Carmeli, Chanoch
contents The interaction of light with photosynthetic proteins is an extremely efficient process and has been thoroughly investigated. However, exploring light-matter interactions in hybrid nano-solid-photosynthetic proteins is a relatively new and existing field of research. The properties of these hybrid materials significantly influence the energy levels, non-radiative energy transfer, absorption, and fluorescence of the photosynthetic proteins upon interaction with light. There is special interest in levering these light-matter interactions for applications such as photo-sensing and converting light energy to electricity. The development of efficient devices requires the formation of a junction for oriented attachment, facilitating efficient energy and electronic transfer between the solids and the proteins. This review will outline the major advancements in solid-state photosynthetic protein devices, elucidate the underlying mechanism, and assess electron transfer efficiency. Furthermore, it will explore and analyze the effect of plasmons on the enhancement of absorption, fluorescence, and photocurrent in hybrid devices.
format Preprint
id arxiv_https___arxiv_org_abs_2411_12618
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Light-Matter Interactions in Photosynthetic Protein Attached to solids and Nanostructures
Carmeli, Itai
Carmeli, Chanoch
Biological Physics
Chemical Physics
The interaction of light with photosynthetic proteins is an extremely efficient process and has been thoroughly investigated. However, exploring light-matter interactions in hybrid nano-solid-photosynthetic proteins is a relatively new and existing field of research. The properties of these hybrid materials significantly influence the energy levels, non-radiative energy transfer, absorption, and fluorescence of the photosynthetic proteins upon interaction with light. There is special interest in levering these light-matter interactions for applications such as photo-sensing and converting light energy to electricity. The development of efficient devices requires the formation of a junction for oriented attachment, facilitating efficient energy and electronic transfer between the solids and the proteins. This review will outline the major advancements in solid-state photosynthetic protein devices, elucidate the underlying mechanism, and assess electron transfer efficiency. Furthermore, it will explore and analyze the effect of plasmons on the enhancement of absorption, fluorescence, and photocurrent in hybrid devices.
title Light-Matter Interactions in Photosynthetic Protein Attached to solids and Nanostructures
topic Biological Physics
Chemical Physics
url https://arxiv.org/abs/2411.12618