Organic solar cells : energetic and nanostructural design / Masahiro Hiramoto, Seiichiro Izawa, editors.
Hiramoto, Masahiro.; Izawa, Seiichiro.
2021
TK8322 .O74 2021eb
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Title Organic solar cells : energetic and nanostructural design / Masahiro Hiramoto, Seiichiro Izawa, editors.
ISBN 9789811591136 (electronic bk.)
981159113X (electronic bk.)
9811591121
9789811591129
DOI https://doi.org/10.1007/978-981-15-9113-6
Published Singapore : Springer, 2021.
Copyright ©2021
Language English
Description 1 online resource (vii, 267 pages)
Item Number 10.1007/978-981-15-9113-6 doi
Call Number TK8322 .O74 2021eb
Dewey Decimal Classification 621.31/244
541
Summary This book focuses on the essential scientific ideas and breakthroughs in the last three decades for organic solar cells that have realized practical applications. The motivation for publishing this book is to explain how those essential ideas have arisen and to provide a foundation for future progress by target readers--students, novices in the field, and scientists with expertise. The main topics covered in the book include the fundamental principles and history of organic solar cells, blended junction, nanostructure control, photocurrent generation, photovoltage generation, doping, practical organic solar cells, and possible ideas for the future. The editors enthusiastically anticipate the vigorous development of the field of organic solar cells by young scientists of the next generation.
Access Note Access limited to authorized users.
Digital File Characteristics PDF
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Source of Description Description based on print version record.
Added Author Hiramoto, Masahiro.
Izawa, Seiichiro.
Available in Other Form Organic Solar Cells : Energetic and Nanostructural Design.
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Intro
Preface
Contents
1 Basic Principles of Modern Organic Solar Cells
1.1 Background
1.1.1 Current Status of Solar Cells: c-Si
1.1.2 Chasers of c-Si
1.1.3 Motivation for Organic Solar Cell
1.1.4 History
1.2 Principles
1.2.1 Photocurrent
1.2.2 Photovoltage
1.2.3 Cell Design
1.3 Conclusions
References
2 A Path to the Blended Junction
2.1 Shock of Two-Layer Solar Cell
2.1.1 Motivation
2.2 Tracking During Interface Making
2.2.1 Expectation
2.2.2 Tracking
2.2.3 Key: Direct PTC/Pc Molecular Contact
2.3 Blended Junction

2.3.1 Expectation
2.3.2 Overcoming Experimental Hurdles
2.3.3 Three-Layer Cell
2.3.4 p-i-n Junction
2.3.5 Inorganic/Organic Hybrid p-i-n Junction
2.3.6 Inevitably Conceived Issue: Percolation
2.3.7 Carrier Generation Model
2.4 Conclusion
References
3 Percolation Toward Lateral Junctions
3.1 Motivation
3.2 Percolation
3.2.1 Substrate Temperature Control
3.2.2 Crystalline-Amorphous Nanocomposite
3.2.3 p-i-n Cells
3.3 Vertical Junctions
3.3.1 Concept
3.3.2 Cell Fabrication
3.3.3 Layer Width
3.3.4 Exciton Diffusion Length

4.2.1 Fabrication of Pigmented OPV Device with Crystallized Active Layer
4.2.2 Relationship Between Active Layer Thickness and Solar Cell Characteristics
4.2.3 Film Morphology and Crystallinity of 10-µm Crystallized OPV
4.2.4 Relationship Between Active Layer Thickness and Absorption/Solar Cell Characteristics
4.3 Effect of Buffer Layer and Antireflection Film
4.3.1 Buffer Layer Selection for Stable Comparison
4.3.2 Effect of Antireflection Film
4.4 Summary and Outlook
References

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