Solar Cells: New Approaches And Reviews Ed. By Leonid A. Kosyachenko
by Leonid A. Kosyachenko /
2015 / English / PDF
20.9 MB Download
This volume is dedicated to the problems of modern photovoltaics, and provides an overview of the results of research and development of different types of solar cells. The chapters are completed by a justification for a new solar cell structure and technology. The relations between structural, thermodynamic, and optical properties of the physical material without addressing the band theory of solids are of both theoretical and practical interest. Requirements formulated for the material are also to be used for maximally efficient conversion of solar radiation into useful work. Preface 1 A Theoretical Description of Thin-Film Cu(In,Ga)Se2 Solar Cell Performance 2 Theoretical Calculation of the Efficiency Limit for Solar Cells 3 Crystal Structures of CH3NH3PbI3 and Related Perovskite Compounds Used for Solar Cells 4 New Approaches to Practical High-Effective Solar Energy Conversion 5 Towards 50% Efficiency in Solar Cells 6 Solar Cell Efficiency Increase at High Solar Concentration, by Thermionic Escape via Tuned Lattice-Matched Superlattices 7 Deep Level Transient Spectroscopy: A Powerful Experimental Technique for Understanding the Physics and Engineering of Photo-Carrier Generation, Escape, Loss and Collection Processes in Photovoltaic Materials 8 Inorganic–Organic Perovskite Solar Cells 9 The Physics of High-Efficiency Thin-Film III-V Solar Cells 10 Crystalline Silicon Solar Cells with Nickel/Copper Contacts 11 Quantum Dots Solar Cells 12 Solar Cells with InGaN/GaN and InP/InGaAsP and InGaP/GaAs Multiple Quantum Wells 13 Bulk Heterojunction Solar Cells — Opportunities and Challenges
