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Texturization and light trappi...
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Texturization and light trapping in silicon solar cells / U. Gangopadhyay, S.K. Dutta and H. Saha.
Saved in:
Bibliographic Details
Main Author:
Gangopadhya, U.
Other Authors:
Dutta, S. K.
,
Saha, H.
Format:
eBook
Language:
English
Published:
New York :
Nova Science Publishers,
©2009.
Subjects:
Silicon solar cells.
Photovoltaic power generation.
TECHNOLOGY & ENGINEERING
>
Electrical.
Photovoltaic power generation
Silicon solar cells
Online Access:
Click for online access
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Table of Contents:
TEXTURIZATION AND LIGHTTRAPPING IN SILICON SOLARCELLS; TEXTURIZATION AND LIGHTTRAPPING IN SILICON SOLARCELLS; CONTENTS; PREFACE; INTRODUCTION; MODELS OF TEXTURIZATION; 2.1. SILICON SOLAR CELL WITH MICRO-GROOVED FRONTSURFACE AND LAMBERTIAN (RANDOMLY TEXTURED) BACKSURFACE; 2.1.1. Reflection Coefficient of Micro-Grooved Silicon FrontSurface; 2.1.2. Reflection Coefficient of the Micro-Grooved Silicon Surfacewith AR Coating for Different Slat Angles; 2.1.3. Cell Geometry, Light Trapping, Optical Path LengthEnhancement and Effective Absorption Co-Efficient.
2.1.4. Effect of Texturization of Solar Cell Parameters2.2. DIFFERENT STRUCTURES FOR REDUCTION OFREFLECTION CO-EFFICIENT AND OPTICAL TRAPPING; Lambertian Geometry; 2.2.1. Upright Pyramid Geometry; 2.2.2. Slat or Micro-Grooved Geometry; 2.2.3. Inverted Pyramids Geometry; 2.2.4. Simple Prism Pyramid Geometry; 2.2.5. Grating Geometry; 2.2.6. Three Perpendicular Planes (3PP) Geometry; 2.2.7. Perpendicular Slats Geometry; 2.2.8. Porous Silicon; 2.3. COMPARATIVE PERFORMANCE IN LIGHT TRAPPING FORSEVERAL GEOMETRIES; TECHNOLOGY FOR REALIZINGTEXTURIZATION FOR MONOCRYSTALLINESILICON SOLAR CELL.
3.1. STANDARD NAOH-IPA TEXTURIZATION APPROACH3.2. NEW TEXTURIZATION APPROACH; 3.2.1. Hydrazine Monohydrate -Isopropyl Texturization; 3.2.2. Tri-Basic Sodium Phosphate -Isopropyl Texturization; 3.2.3. Sodium Carbonate/Sodium Bicarbonate Texturization; 3.3. COMPARISON OF DIFFERENT ELECTRICALPARAMETERS OF MONOCRYSTALLINE SILICON SOLAR CELLUSING CONVENTIONAL NAOH TEXTURIZATION WITH THOSEUSING RECENTLY DEVELOPED TEXTURIZATION PROCESS; 3.3.1. Conventional Sodium hydroxide-Isopropyl and Hydrazine -Isopropyl Textured Monocrystalline Silicon Solar Cell.
3.3.2. Conventional Sodium Hydroxide-Isopropyl and Tri SodiumPhosphate-Isopropyl Textured Monocrystalline Silicon Solar Cell3.4. INDUSTRIAL APPLICABILITY; MULTICRYSTALLINE SILICON ETCHING FORSOLAR CELL FABRICATION; 4.1. ALKALINE ETCHANTS FOR MC-SI SOLAR CELLPROCESSING; 4.2. ISOTROPIC TEXTURING WITH HF-HNO3-H2O SOLUTIONFOR MC-SI SOLAR CELL PROCESSING; 4.3. SODIUM HYDROXIDE
SODIUM HYPOCHLORITE (NAOH- NAOCL) SOLUTION FOR MC-SI SOLAR CELL PROCESSING; 4.4. MECHANICAL TEXTURING FOR MC-SI SOLAR CELLPROCESSING; 4.5. PLASMA ETCHING FOR MC-SI SOLAR CELLPROCESSING; 4.5.1. Reactive Ion Etching(Rie).
4.5.2. Black Silicon Layer Formation by Rf Multi-Hollow CathodeSystem4.6. MULTICRYSTALLINE SILICON SOLAR CELLPERFORMANCE; 4.6.1. Multicrystalline Silicon Solar Cell Using Conventional NaOHTexturization; 4.6.2. Comparison of Multicrystalline Silicon Solar CellPerformance Using Texturization with Naoh-Naocl and HighConcentration Naoh Solution; 4.6.3. Multicrystalline Silicon Solar Cell Using RIE Texturization; 4.7. INDUSTRIAL APPLICATION; REFERENCES; INDEX.
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