A modern challenge is for Solar cell Materials to enable the highest Solar energy conversion efficiencies, at costs as low as possible, and at an energy balance as sustainable as necessary in the future.
It has been well applied for postgraduate students with background in Materials science, engineering, chemistry or physics..
It encourages students to solve tasks at the end of each chapter.
This is essential reading for students interested in Solar Cells and Materials for Solar cells.
Research activities were boosted by the class of hybrid organic-inorganic metal halide perovskites, a promising newcomer in the field.
For example, the high potential of crystalline silicon with charge-selective hetero-junctions and alkaline treatments of thin-film absorbers, based on chalcopyrite, enabled new records.
We consider them in this second edition.
The last five years had several breakthroughs in photovoltaics and in the research on Solar Cells and Solar cell materials.
In this sense, it bridges a gap between basic literature on the physics of Solar Cells and books specialized on certain types of Solar cells. Solar Cells based on crystalline silicon, epitaxial layer systems of III-V semiconductors, thin-film absorbers on foreign substrates, and nano-composite absorbers.
It combines basic knowledge about Solar Cells and the demanded criteria for the Materials with a comprehensive introduction into each of the four classes of Materials for Solar cells, i.e.
This textbook explains the principles, Concepts and Materials used in Solar cells.
A modern challenge is for Solar cell Materials to enable the highest Solar energy conversion efficiencies, at costs as low as possible, and at an energy balance as sustainable as necessary in the future
