Physics of Thin–Film Photovoltaics by Karpov, Victor G.; Shvydka, Diana;

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Product details:

Publisher Wiley–Blackwell
Date of Publication 31 August 2026

ISBN 9780470110140
Binding Hardback
No. of pages350 pages
Size 250x150 mm
Language English

Short description:

The overall objective of this book to give a self–containedin–depth discussion of the physics of thin–film systems in a manneraccessible to both researchers and students, so that the readersgain a sound perspective on the past and a foundation forprojecting future trends.

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Long description:

The overall objective of this book to give a self–containedin–depth discussion of the physics of thin–film systems in a manneraccessible to both researchers and students, so that the readersgain a sound perspective on the past and a foundation forprojecting future trends. It starts with a brief generalintroduction to renewable energy, photovoltaics, and thin–filmtechnology challenges. It covers most aspects of the physicsof thin–film photovoltaic devices, including device operations,material structure and parameters, thin–film junction formation,analytical and numerical modeling, recently developed concepts oflarge area effects and lateral non–uniformities, physics ofshunting (both shunt growth and effects), and the physicsunderlying device degradation. Also, it reviews a variety ofphysical diagnostic techniques proven in thin–film photovoltaictechnology.