It is suitable for undergraduates, graduate students, and researchers new to the field.
It covers: basic physics of semiconductors in photovoltaic devices; physical models of solar cell operation; characteristics and design of common types of solar cell; and approaches to increasing solar cell efficiency.
The text explains the terms and concepts of solar cell device physics and shows the reader how to formulate and solve relevant physical problems. Exercises and worked solutions are included.
Contents: Photons In, Electrons Out: Basic Principles of PV; Electrons and Holes in Semiconductors; Generation and Recombination; Junctions; Analysis of the p n Junction; Monocrystalline Solar Cells; Thin Film Solar Cells; Managing Light; Over the Limit: Strategies for Higher Efficiency.
Photovoltaics will play an increasingly important role in a future low-carbon energy economy. Jenny Nelson has provided a splendidly clear, concise and readable account of the basic semiconductor physics of the solar cell, complete with student exercises and solutions. In the two fascinating final chapters, she takes her readers beyond the limit of performance of the present-day crystalline silicon cell, describing advanced design concepts that could provide greatly improved efficiency. Warmly recommended to all who want to know how this beautiful technology really works --Mary Archer, Cambridge University
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