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Emerging Strategies to Reduce Transmission and Thermalization Losses in Solar Cells = Redefining the Limits of Solar Power Conversion Efficiency /

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Emerging Strategies to Reduce Transmission and Thermalization Losses in Solar Cells/ edited by Jonas Sandby Lissau, Morten Madsen.
Reminder of title:	Redefining the Limits of Solar Power Conversion Efficiency /
other author:	Lissau, Jonas Sandby.
Description:	VIII, 354 p.online resource. :
Contained By:	Springer Nature eBook
Subject:	Optical materials. -
Online resource:	https://doi.org/10.1007/978-3-030-70358-5
ISBN:	9783030703585

Emerging Strategies to Reduce Transmission and Thermalization Losses in Solar Cells = Redefining the Limits of Solar Power Conversion Efficiency /
Emerging Strategies to Reduce Transmission and Thermalization Losses in Solar CellsRedefining the Limits of Solar Power Conversion Efficiency /[electronic resource] :edited by Jonas Sandby Lissau, Morten Madsen. - 1st ed. 2022. - VIII, 354 p.online resource.

Introduction: Solar cell e!ciency and routes beyond current limits -- Part I: Addressing transmission losses – sequential absorption via triplet fusion in organic materials -- Photophysics -- Near-infrared-to-visible photon upconversion -- Photon upconversion based on sensitized triplet-triplet annihilation (sTTA) in solids -- Organic triplet photosensitizers for triplet-triplet annihilation upconversion -- Plasmon-enhanced homogeneous and heterogeneous triplet–triplet annihilation -- Part II: Molecular oxygen and triplets – photophysics and protective strategies -- Molecular Oxygen in Photoresponsive Organic Materials -- Protective Strategies towards Long-term Operation of Annihilation Photon Energy Upconversion -- Additive-assisted stabilization against photooxidation of organic and hybrid solar cells -- Part III: Implementation of photochemical upconversion in solar cells -- Optically-coupled Upconversion Solar Cells -- Electronically-coupled TTA-UC Solar Cells -- Part IV: Addressing transmission losses – sequential absorption in rare earth ions -- Rare-earth ion based photon up-conversion for transmission-loss reduction in solar cells -- Nanophotonics for photon upconversion enhancement -- Part V: Addressing thermalisation losses – singlet fission and quantum cutting -- Singlet fission – mechanisms and molecular design -- Singlet fission solar cells.

The book describes emerging strategies to circumvent transmission and thermalization losses in solar cells, and thereby redefine the limits of solar power conversion efficiency. These strategies include the use of organic molecules and rare-earth metal materials. Approaches to augment the efficiency of these processes via near-field enhancement are described as well. This book includes a discussion of state-of-the-art implementations of these emerging strategies in solar cells, both internally, as in molecular intermediate band and charge carrier multiplication, and externally, such as photon up- and down-conversion. Tools for characterization are also provided. Written by leading researchers in the field, this book can be useful to both beginners and experienced researchers in solar energy.

ISBN: 9783030703585

Standard No.: 10.1007/978-3-030-70358-5doiSubjects--Topical Terms:

672695
Optical materials.

LC Class. No.: QC374-379

Dewey Class. No.: 620.11295

Emerging Strategies to Reduce Transmission and Thermalization Losses in Solar Cells = Redefining the Limits of Solar Power Conversion Efficiency /
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505 0 $a Introduction: Solar cell e!ciency and routes beyond current limits -- Part I: Addressing transmission losses – sequential absorption via triplet fusion in organic materials -- Photophysics -- Near-infrared-to-visible photon upconversion -- Photon upconversion based on sensitized triplet-triplet annihilation (sTTA) in solids -- Organic triplet photosensitizers for triplet-triplet annihilation upconversion -- Plasmon-enhanced homogeneous and heterogeneous triplet–triplet annihilation -- Part II: Molecular oxygen and triplets – photophysics and protective strategies -- Molecular Oxygen in Photoresponsive Organic Materials -- Protective Strategies towards Long-term Operation of Annihilation Photon Energy Upconversion -- Additive-assisted stabilization against photooxidation of organic and hybrid solar cells -- Part III: Implementation of photochemical upconversion in solar cells -- Optically-coupled Upconversion Solar Cells -- Electronically-coupled TTA-UC Solar Cells -- Part IV: Addressing transmission losses – sequential absorption in rare earth ions -- Rare-earth ion based photon up-conversion for transmission-loss reduction in solar cells -- Nanophotonics for photon upconversion enhancement -- Part V: Addressing thermalisation losses – singlet fission and quantum cutting -- Singlet fission – mechanisms and molecular design -- Singlet fission solar cells.
520 $a The book describes emerging strategies to circumvent transmission and thermalization losses in solar cells, and thereby redefine the limits of solar power conversion efficiency. These strategies include the use of organic molecules and rare-earth metal materials. Approaches to augment the efficiency of these processes via near-field enhancement are described as well. This book includes a discussion of state-of-the-art implementations of these emerging strategies in solar cells, both internally, as in molecular intermediate band and charge carrier multiplication, and externally, such as photon up- and down-conversion. Tools for characterization are also provided. Written by leading researchers in the field, this book can be useful to both beginners and experienced researchers in solar energy.
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