Description

Ultrafast energy and charge transfer events dictate the functionality of a broad range of molecular, aggregate and nanomaterial systems. Impressive recent advances in the commercialisation of ultrafast laser technology and on many theoretical fronts, plus the societal emphasis on solar energy, have led to a surge of research in this community, encompassing spectroscopists, biophysicists, computational and theoretical chemists, physicists and materials scientists. Ambitions have evolved beyond studies of simple molecular systems, and increasingly focus on the underlying molecular mechanisms prevailing in nanomaterial, native protein and hybrid systems. Many working in this area share a common aim, to address and answer one of the most pressing issues currently facing the scientific community: the photophysics underlying efficient light capture, energy transport and efficient charge carrier generation, water splitting, photo-protection and photo-damage, proton transfer and/or molecular re-organisation. This volume discusses the following themes: Energy and charge-transfer in natural photosynthesis Photovoltaics and bio-inspired light harvesting Photo-induced electron transfer Photo-protection/photo-damage in natural systems

Ultrafast Photoinduced Energy and Charge Transfer: Faraday Discussion 216

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Ultrafast energy and charge transfer events dictate the functionality of a broad range of molecular, aggregate and nanomaterial systems. Impressive... Read more

    Publisher: Royal Society of Chemistry
    Publication Date: 24/07/2019
    ISBN13: 9781788016735, 978-1788016735
    ISBN10: 1788016734

    Number of Pages: 590

    Description

    Ultrafast energy and charge transfer events dictate the functionality of a broad range of molecular, aggregate and nanomaterial systems. Impressive recent advances in the commercialisation of ultrafast laser technology and on many theoretical fronts, plus the societal emphasis on solar energy, have led to a surge of research in this community, encompassing spectroscopists, biophysicists, computational and theoretical chemists, physicists and materials scientists. Ambitions have evolved beyond studies of simple molecular systems, and increasingly focus on the underlying molecular mechanisms prevailing in nanomaterial, native protein and hybrid systems. Many working in this area share a common aim, to address and answer one of the most pressing issues currently facing the scientific community: the photophysics underlying efficient light capture, energy transport and efficient charge carrier generation, water splitting, photo-protection and photo-damage, proton transfer and/or molecular re-organisation. This volume discusses the following themes: Energy and charge-transfer in natural photosynthesis Photovoltaics and bio-inspired light harvesting Photo-induced electron transfer Photo-protection/photo-damage in natural systems

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