Development of highly stable multi-bandgap amorphous silicon alloy stacked solar cells 高信頼性マルチバンドギャップアモルファスシリコン合金積層型太陽電池の開発
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Bibliographic Information
- Title
-
Development of highly stable multi-bandgap amorphous silicon alloy stacked solar cells
- Other Title
-
高信頼性マルチバンドギャップアモルファスシリコン合金積層型太陽電池の開発
- Author
-
中田, 行彦, 1946-
- Author(Another name)
-
ナカタ, ユキヒコ
- University
-
大阪大学
- Types of degree
-
工学博士
- Grant ID
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乙第5627号
- Degree year
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1992-02-20
Note and Description
博士論文
Table of Contents
- DEVELOPMENT OF HIGHLY STABLE MULTI-BANDGAP AMORPHOUS SILICON ALLOY STACKED SOLAR CELLS / p1 (0002.jp2)
- TABLE OF CONTENTS / p5 (0004.jp2)
- Chapter I.INTRODUCTION / p1 (0007.jp2)
- 1-1.Historical Background / p1 (0007.jp2)
- 1-2.Objective of This Work / p6 (0010.jp2)
- Chapter II.IMPROVEMENT OF FILM QUALITY IN AMORPHOUS SILICON(a-Si)ALLOY AND ITS APPLICATION TO SOLAR CELLS / p14 (0014.jp2)
- 2-1.Introduction / p14 (0014.jp2)
- 2-2.Improvement of Film Quality in a-SiC:H and its Application to Solar Cells / p15 (0014.jp2)
- 2-3.Improvement of Film Quality in a-SiGe:H / p24 (0019.jp2)
- 2-4.Properties of a-Si Alloy Materials / p33 (0023.jp2)
- 2-5.Summary / p35 (0024.jp2)
- Chapter III.CHARACTERIZATION OF COMPONENT CELLS IN a-Si ALLOY STACKED SOLAR CELL / p38 (0026.jp2)
- 3-1.Introduction / p38 (0026.jp2)
- 3-2.Measurement of Spectral Photo-response in a-Si Alloy Single-junction Solar Cells / p39 (0026.jp2)
- 3-3.Measurement of spectral Photo-response for Each Component Cell in a-Si Stacked Solar Cells / p53 (0033.jp2)
- 3-4.Characterization of Component Cells in a-Si Alloy Stacked Solar Cell / p65 (0039.jp2)
- 3-5.Summary / p69 (0041.jp2)
- Chapter IV.ANALYSIS OF LIGHT-INDUCED DEGRADATION IN a-Si ALLOY SOLAR CELLS / p72 (0043.jp2)
- 4-1.Introduction / p72 (0043.jp2)
- 4-2.Experimental / p74 (0044.jp2)
- 4-3.Dependence of Light-induced Degradation in a-Si Alloy Solar Cells on Exposure Condition / p76 (0045.jp2)
- 4-4.Discussions of Light-induced Degradation in a-Si Alloy Solar Cells / p85 (0049.jp2)
- 4-5.Accelerated Test Method of Light-induced Degradation / p89 (0051.jp2)
- 4-6.Summary / p95 (0054.jp2)
- Chapter V.BANDGAP PROFILING IN a-Si ALLOY SOLAR CELLS / p98 (0056.jp2)
- 5-1.Introduction / p98 (0056.jp2)
- 5-2.Experimental / p99 (0056.jp2)
- 5-3.Composition Profile / p99 (0056.jp2)
- 5-4.Improvement of a-SiGe Cell Characteristics by Bandgap Profiling / p101 (0057.jp2)
- 5-5.Physical Mechanism of Bandgap Profiling on Solar Cell Characteristics / p106 (0060.jp2)
- 5-6.Design of Bandgap Profiles / p117 (0065.jp2)
- 5-7.Summary / p125 (0069.jp2)
- Chapter VI.OPTICAL CONFINEMENT IN a-Si ALLOY SOLAR CELLS / p128 (0071.jp2)
- 6-1.Introduction / p128 (0071.jp2)
- 6-2.Texturing of Rear Silver Reflector / p128 (0071.jp2)
- 6-3.Inserting of ZnO film / p135 (0074.jp2)
- 6-4.Glass/Textured SnO₂ Substrates / p136 (0075.jp2)
- 6-5.MgF₂/ITO Double Anti-reflection Coating / p140 (0077.jp2)
- 6-6.Summary / p143 (0078.jp2)
- Chapter VII.DEVELOPMENT OF HIGHLY STABLE MULTI-BANDGAP a-Si ALLOY STACKED SOLAR CELLS / p146 (0080.jp2)
- 7-1.Introduction / p146 (0080.jp2)
- 7-2.Potential of Multi-bandgap Stacked Solar Cells / p147 (0080.jp2)
- 7-3.Characteristics of a-Si/a-Si/a-SiGe Stacked Solar Cells / p151 (0082.jp2)
- 7-4.Characteristics of a-SiC/a-Si/a-SiGe stacked solar cells / p156 (0085.jp2)
- 7-5.Summary / p161 (0087.jp2)
- Chapter VIII.CONCLUSIONS / p165 (0089.jp2)
- VITA / (0091.jp2)