Coverart for item
The Resource Anti-Reflection and Light Trapping in C-Si Solar Cells

Anti-Reflection and Light Trapping in C-Si Solar Cells

Label
Anti-Reflection and Light Trapping in C-Si Solar Cells
Title
Anti-Reflection and Light Trapping in C-Si Solar Cells
Creator
Contributor
Subject
Language
eng
Member of
Cataloging source
MiAaPQ
Literary form
non fiction
Nature of contents
dictionaries
Series statement
Green Energy and Technology Ser
Anti-Reflection and Light Trapping in C-Si Solar Cells
Label
Anti-Reflection and Light Trapping in C-Si Solar Cells
Link
http://libproxy.rpi.edu/login?url=https://ebookcentral.proquest.com/lib/rpi/detail.action?docID=4895007
Publication
Copyright
Related Contributor
Related Location
Related Agents
Related Authorities
Related Subjects
Related Items
Carrier category
online resource
Carrier category code
cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
txt
Content type MARC source
rdacontent
Contents
  • Preface -- Acknowledgements -- Contents -- About the Authors -- List of Figures -- 1 Solar Cells Overview and Perspective to Light-Trapping Schemes -- 1.1 Place of Solar PV Technology in World Energy Mix -- 1.2 Historical Development of Solar Cells -- 1.3 Different Solar Cell Technologies -- 1.4 Current Status of Solar Cell Technologies -- 1.5 Basic Working Principle of Solar Cells -- 1.6 Why c-Si Solar Cell? -- 1.7 Importance of Light-Trapping Structure -- 1.8 Questions and Problems -- References -- 2 c-Si Solar Cells: Physics and Technology -- 2.1 Overview of c-Si Solar Cells -- 2.2 c-Si Solar Cell: Design and Technology -- 2.2.1 Classification of c-Si-Based Solar Cells -- 2.2.2 Architecture of c-Si Solar Cells -- 2.2.3 Historical Development -- 2.3 Manufacturing Process of c-Si Solar Cells -- 2.4 Photovoltaic Effect in c-Si Solar Cells and Important Parameters -- 2.4.1 Photovoltaic Effect in c-Si Solar Cells -- 2.4.2 Current-Voltage Characteristics -- 2.4.3 Important Solar Cell Parameters -- 2.4.3.1 Open Circuit Voltage (Voc) -- 2.4.3.2 Short Circuit Current (Jsc) -- 2.4.3.3 Maximum Power (Pmax) -- 2.4.3.4 Fill Factor (FF) -- 2.4.3.5 Efficiency (j) -- 2.4.3.6 Quantum Efficiency (QE) -- 2.5 Role of Light-Trapping Structures -- 2.6 ITRPV Roadmap for c-Si Solar Cell Development -- 2.7 Next Generation c-Si Solar Cells -- 2.8 Questions and Problems -- References -- 3 Principle of Dielectric-Based Anti-reflection and Light Trapping -- 3.1 Reflection, Refraction, and Transmission from Dielectric Interfaces -- 3.1.1 Reflection, Refraction, and Transmission -- 3.1.2 Wave Optics Based Interaction of Light with Dielectric Medium and Interfaces -- 3.1.3 Fresnel Equations for Reflection and Transmission -- 3.2 Dielectric Thin Films and Their Role in Reflection Reduction -- 3.3 Role of Refractive Index and Dielectric Medium
  • 3.4 Multilayer Dielectric Thin Films for Reflection Reduction -- 3.5 Additional Functionality of Dielectric Anti-reflection Layers -- 3.6 Limitation of Dielectric-Based Anti-reflection Structure -- 3.7 Questions and Problems -- References -- 4 Principle of Texturization for Enhanced Light Trapping -- 4.1 Surface Morphology and Its Impact on Light Reflection, Refraction and Transmission -- 4.2 Textured Surfaces in c-Si Solar Cells -- 4.3 Role of Texture Size and Shape in Light Trapping and Reflection Reduction -- 4.4 Single Side Texturing Versus Both Side Texturing -- 4.5 Most Suitable Textured Surface for Better Light Trapping -- 4.6 Implication of Texturing Based Light Trapping Structure -- 4.7 Questions and Problems -- References -- 5 Texturing Process of c-Si Wafers -- 5.1 Si Crystal Structure -- 5.2 Wafer Type and Orientation for c-Si Solar Cell Fabrication -- 5.3 Chemical Process for Texturing -- 5.4 Process Control for Texture Pyramids Size and Shape Distribution -- 5.5 Industrial Processes Used for Surface Texturing -- 5.6 Practical Implications of Chemical Texturing Processes -- 5.7 Questions and Problems -- References -- 6 Anti-reflection Coatings with Textured Surface for c-Si Solar Cells -- 6.1 Primary Benefit of Textured Surface in Combination with Anti-reflection Layer -- 6.2 Analysis on Cell Performance Having Textured Surface but Without and with Anti-reflection Layer -- 6.3 Dual Role of Anti-reflection Layers in c-Si Solar Cells -- 6.4 Most Suitable Light Trapping Geometry -- 6.5 Implication of Existing Light Trapping Geometry for Next Generation Solar Cells -- 6.6 Suitable Light Trapping Structure for Next Generation Solar Cells -- 6.7 Questions and Problems -- References -- 7 Advancements in Traditional Light Trapping Structures -- 7.1 Traditional Light-Trapping Structures
  • 7.2 Inverted Pyramid-Based Light Trapping for Thin Wafer-Based Cells -- 7.3 Back Reflectors for Enhanced Light Trapping -- 7.4 Advanced Light-Trapping Structures for Next-Generation c-Si Solar Cells -- 7.5 Questions and Problems -- References -- 8 Plasmonic-Based Advanced Anti-reflection and Light Trapping: Principles and Technology -- 8.1 Plasmonics: Historical Development -- 8.1.1 Plasmon and Surface Plasmon Effect -- 8.1.2 Historical Presence and Development -- 8.2 Plasmonics in Solar Cells -- 8.2.1 Enhanced Light Trapping by Light Scattering Based on Particle Plasmons -- 8.2.2 Enhanced Light Trapping by Particle Plasmons-Based Light Concentration -- 8.2.3 Enhanced Light Trapping by Surface Plasmon Polariton (SPP) -- 8.3 Light-Matter Interaction and Plasmonics -- 8.4 Mie Efficiencies -- 8.4.1 Scattering and Absorption Efficiencies -- 8.4.2 Parameters Influencing the Scattering/Mie Efficiencies -- 8.5 Backscattering Effect in Nanostructures -- 8.6 Extraordinary Transmission Through Metal-Dielectric Extended Layers -- 8.6.1 Penetration Depth and Propagation Length -- 8.6.2 Metal-Dielectric Extended Layers and Propagation of Light -- 8.7 Choice of Metal for Plasmonics Applications -- 8.8 Questions and Problems -- References -- 9 Plasmonic-Based Light Trapping for c-Si Solar Cell Applications -- 9.1 Need for Plasmonic-Based Anti-reflection Structure in c-Si Solar Cells -- 9.2 Expectation from Plasmonic-Based Anti-reflector or Light Trapping Structure -- 9.3 Plasmonic-Based Anti-reflection Structure Suitable for c-Si Solar Cells -- 9.4 Recent Advancement in Plasmonic-Based Anti-reflector Development -- 9.4.1 Nanoparticles at Front -- 9.4.2 Nanoparticles at Back -- 9.4.3 Dielectric-Metal Sandwiched Structure -- 9.5 Present Limitations for Plasmonic-Based Anti-reflector Development and Implementations -- 9.6 Questions and Problems -- References
  • 10 Future Scope in Advanced Lighting Trapping Structure Development -- 10.1 Exploration of Metal-Dielectric Extended Layers -- 10.2 Nanoparticles at Back Surface of c-Si Solar Cells -- 10.3 Reflection Reduction Required for a Wide Range of Angle of Incidence and Compatibility of Different Light Tapping Structures -- 10.4 Efficient Light Directors -- 10.5 Combination of Multiple Light Trapping Technologies for Enhanced Cell Performance -- 10.6 Advanced Light Trapping Structure Implementation in Next-Generation Solar Cells -- References
http://library.link/vocab/cover_art
https://contentcafe2.btol.com/ContentCafe/Jacket.aspx?Return=1&Type=S&Value=9789811047718&userID=ebsco-test&password=ebsco-test
Dimensions
unknown
http://library.link/vocab/discovery_link
{'f': 'http://opac.lib.rpi.edu/record=b4393529'}
Extent
1 online resource (210 pages)
Form of item
online
Isbn
9789811047718
Media category
computer
Media MARC source
rdamedia
Media type code
c
Sound
unknown sound
Specific material designation
remote

Library Locations

    • Folsom LibraryBorrow it
      110 8th St, Troy, NY, 12180, US
      42.729766 -73.682577
Processing Feedback ...