Research Catalog

Perovskite solar cells : principle, materials, devices

Title
Perovskite solar cells : principle, materials, devices / edited by Eric Wei-Guang Diau, Peter Chao-Yu Chen.
Publication
  • New Jersey : World Scientific, [2018]
  • ©2018

Items in the Library & Off-site

Filter by

1 Item

StatusFormatAccessCall NumberItem Location
Request for On-site UseRequest Scan
How do I pick up this item and when will it be ready?
TextUse in library TK2960 .P37 2018Off-site

Details

Additional Authors
  • Diau, Eric
  • Chen, Peter (Professor of materials engineering)
Description
x, 234 pages : color illustrations; 24 cm
Series Statement
Series on chemistry, energy and the enviroment ; volume 1
Uniform Title
Series on chemistry, energy and the environment ; v. 1.
Subject
  • Solar cells > Materials
  • Photovoltaic cells > Materials
  • Perovskite (Mineral)
Bibliography (note)
  • Includes bibliographical references and index.
Contents
  • Machine generated contents note: 1. Additive-Assisted Controllable Growth of Perovskites / Kai Zhu -- List of Abbreviations -- I. Introduction -- II. Cl-Based Additives -- A. Role of MACI in One-Step Solution Processing -- B. Extremely Volatile Cl-Based Additive for Room Temperature Perovskite Processing -- C. Adverse Effect from Nonvolatile Cl-Based Additives -- III. Excess MA Additive in Nonstoichiometric Precursor -- IV. Additives for Pbl2 in Two-Step Method -- V. Conclusions -- VI. Acknowledgments -- VIII. References -- 2. Control of Film Morphology for High-Performance Perovskite Solar Cells / Eric Wei-Guang Diau -- List of Abbreviations -- I. Introduction -- II. Solvent-Assisted Crystallization and Film Morphology -- III. Fabrication of N- and P-Type Perovskite Solar Cells -- IV. Photovoltaic Performance of N-Type and P-Type Devices -- V. Effect of Hysteresis and Oxidation of Hole-Transport Materials -- VI. Conclusion -- VII. Acknowledgments -- VIII. References
  • Note continued: 3. Sensitization and Functions of Porous Titanium Dioxide Electrodes in Dye-Sensitized Solar Cells and Organolead Halide Perovskite Solar Cells / Seigo Ho -- List of Abbreviations -- I. History of Dye Sensitization and Dye-Sensitized Solar Cells -- II. Functions of Porous TiO2 Electrode -- III. Tuning of Particle and Hole Size (Light Transparency and Material Diffusion) -- IV. Electron Transportation and Accumulation on the TiO2 Surface -- V. Prohibition of Short Circuit between Working and Counter Electrodes -- VI. Conclusions and Perspectives -- VII. References -- 4.P-Type and Inorganic Hole Transporting Materials for Perovskite Solar Cells / Peter Chao-Yu Chen -- List of Abbreviations -- I. Introduction -- II. Inorganic HTM of NiO for PSCs -- A. Mesoporous NiO-Based n-i-p PSCs -- B. Planar NiO-Based n-i-p PSCs -- C. Mesoporous NiO-Based p-i-n PSCs -- D. Planar NiO-Based p-i-n PSCs
  • Note continued: E. Charge Separation, Dynamics, Kinetics and Chemical Reaction at Perovskite/NiO Interface -- III. Copper-Based Inorganic HTMs for PSCs -- A. CuSCN as HTM -- 1. Mesoporous CuSCN-Based n-i-p PSCs -- 2. Planar CuSCN-Based n-i-p PSCs -- 3. Planar CuSCN-Based p-i-n PSCs -- B. Cul as HTM -- C. Cu2O and CuO as HTM -- D. CulnS2 as HTM -- E. CuAIO2 as HTM -- F. CuS as HTM -- IV. Conclusion and Perspectives -- V. References -- 5. Hole Conductor Free Organometal Halide Perovskite Solar Cells: Properties and Different Architectures / Lioz Etgar -- List of Abbreviations -- I. Introduction -- II. High-Efficiency Hole-Conductor-Free Perovskite Solar Cells: Optimization of Key Parameters -- III. High-Voltage Hole Conducting Layer-Free Solar Cells: The Oxide Role in the PSC Configuration -- IV. Planar Hole Conducting Layer-Free Perovskite Solar Cell -- V. Conclusions -- VI. References -- 6. Stability Issues of Inorganic/Organic Hybrid Lead Perovskite Solar Cells / Mingkui Wang
  • Note continued: List of Abbreviations -- I. Introduction -- II. Stability of Inorganic-Organic Hybrid Lead Perovskites and Their Solar Cells -- A. Effect from Moisture -- B. Effect from Temperature -- C. Effect from Photon -- D. Stability of Charge Transport Materials -- III. Solution to Increase the Stability of Perovskite Solar Cells -- A. Strategy for Reduction of Perovskite Degradation -- B. Strategy for UV Light Degradation -- C. Strategies for Charge Transport Materials -- IV. Conclusions and Outlook -- V. References -- 7. Time-Resolved Photoconductivity Measurements on Organometal Halide Perovskites / Carlito S. Ponseca Jr. -- List of Abbreviations -- I. Introduction -- II. Methods -- A. Light Absorption -- B. Time-Resolved THz Spectroscopy -- C. Time-Resolved Microwave Conductivity -- D. Modeling of Kinetic Data -- III. Transient Photoconductivity Measurements in the Picosecond to Few Nanosecond Time Scales -- A. Properties of Intrinsic MAPbl3 Material
  • Note continued: B. Properties of Intrinsic FAPbl3 Material -- C. Charge Injection to Metal Oxide Electrodes -- D. Charge Injection to Organic Electrodes -- IV. Transient Photoconductivity Measurements in the Hundreds of Nanoseconds to Microsecond Time Scales -- A. Thin Film Perovskites -- B. Single Crystal Perovskite -- V. Conclusions and Perspectives -- VI. Acknowledgment -- VII. References.
ISBN
  • 9789813222519
  • 9813222514
LCCN
2017029412
OCLC
  • on1012738209
  • 1012738209
  • SCSB-9315330
Owning Institutions
Princeton University Library