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Titlebook: Solar Energy Harvesting with Photosynthetic Pigment-Protein Complexes; Sai Kishore Ravi,Swee Ching Tan Book 2020 Springer Nature Singapore

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书目名称Solar Energy Harvesting with Photosynthetic Pigment-Protein Complexes
编辑Sai Kishore Ravi,Swee Ching Tan
视频video
概述Provides a crisp overview of the structural and functional aspects of pigment-proteins.Summarizes the different ways of integrating proteins in a biohybrid solar cell and their charge transport mechan
丛书名称Green Energy and Technology
图书封面Titlebook: Solar Energy Harvesting with Photosynthetic Pigment-Protein Complexes;  Sai Kishore Ravi,Swee Ching Tan Book 2020 Springer Nature Singapore
描述This book chronicles a few approaches to constructing biohybrid devices using photosynthetic protein complexes. Can the abundantly available solar energy be tapped to meet our rising energy demands using green and cheap active materials? Exploring nature’s own tiny solar factories, the photosynthetic proteins could hold the key. Photosynthetic pigment-protein complexes found in plants and certain types of bacteria transduce sunlight into biologically useful forms of energy through a photochemical charge separation that has a 100% quantum efficiency. Getting the photoproteins to perform this efficient energy conversion reaction in a semi-artificial setup is central to developing biohybrid solar technologies, a promising green alternative to today’s photovoltaics. This book looks into the existing challenges and opportunities in the field of biohybrid photovoltaics and provides a few prospective methods of enhancing the photocurrent and photovoltage in these devices. The book targets thereadership of students, academics, and industrial practitioners who are interested in alternative solar technologies.
出版日期Book 2020
关键词Photosynthetic pigment-protein complexes; Photochemical charge separation; Biohybrid photovoltaics dev
版次1
doihttps://doi.org/10.1007/978-981-15-6333-1
isbn_softcover978-981-15-6335-5
isbn_ebook978-981-15-6333-1Series ISSN 1865-3529 Series E-ISSN 1865-3537
issn_series 1865-3529
copyrightSpringer Nature Singapore Pte Ltd. 2020
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Interfacing Photoproteins with Mechanoresponsive Electrolytes for Enhancing Photocurrent and Stabilr global abundance, environmental compatibility and near-unity quantum efficiencies. However, it has been challenging to achieve high photocurrents in a device setup due to limitations imposed by low light absorbance by protein monolayers and/or slow long-range diffusion of liquid-phase charge carri
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Integrating the Light Reactions of a Photoprotein and a Semiconductor for Enhanced Photovoltage, quantum efficiency, and there is increasing interest in their use as sustainable materials in biohybrid devices for solar energy harvesting. This chapter presents a new strategy for boosting the open-circuit voltage of photoelectrochemical cells based on a bacterial photosynthetic pigment-protein b
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,Role of Band-Structure Approach in Biohybrid Photovoltaics—A Path Beyond Bioelectrochemistry, photosynthetic systems have succeeded in efficiently harvesting solar energy which is key to the sustenance of life on earth. With numerous advances in understanding the structure and function of the natural photosystems, the last decade has witnessed new perspectives in developing Bio-inspired Pho
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Bio-Schottky Semi-Artificial Photosynthetic Devices,th synthetic components. This chapter describes a recently reported semi-artificial system for solar energy conversion that synergistically combines photoreactions in a purple-bacterial photosynthetic membrane with those in three types of transition metal-semiconductor Schottky junctions. A transpar
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