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This book systematically introduces physical characteristics and
implementations of III-nitride wide bandgap semiconductor materials
and electronic devices, with an emphasis on high-electron-mobility
transistors (HEMTs). The properties of nitride semiconductors make
the material very suitable for electronic devices used in microwave
power amplification, high-voltage switches, and high-speed digital
integrated circuits.
This book systematically introduces physical characteristics and
implementations of III-nitride wide bandgap semiconductor materials
and electronic devices, with an emphasis on high-electron-mobility
transistors (HEMTs). The properties of nitride semiconductors make
the material very suitable for electronic devices used in microwave
power amplification, high-voltage switches, and high-speed digital
integrated circuits.
This book explores the scientific basis of the photovoltaic effect,
solar cell operation, various types of solar cells, and the main
process used in their manufacture. It addresses a range of topics,
including the production of solar silicon; silicon-based solar
cells and modules; the choice of semiconductor materials and their
production-relevant costs and performance; device structures,
processing, and manufacturing options for the three major thin-film
PV technologies; high-performance approaches for multi-junction,
concentrator, and space applications; and new types of organic
polymer and dye-sensitized solar cells. The book also presents a
concept for overcoming the efficiency limit of today's solar cells.
Accessible for beginners, while also providing detailed information
on the physics and technology for experts, the book is a valuable
resource for researchers, engineers, and graduate students in
fields such as physics, materials, energy, electrical and
electronic engineering and microelectronics.
This book explores the scientific basis of the photovoltaic effect,
solar cell operation, various types of solar cells, and the main
process used in their manufacture. It addresses a range of topics,
including the production of solar silicon; silicon-based solar
cells and modules; the choice of semiconductor materials and their
production-relevant costs and performance; device structures,
processing, and manufacturing options for the three major thin-film
PV technologies; high-performance approaches for multi-junction,
concentrator, and space applications; and new types of organic
polymer and dye-sensitized solar cells. The book also presents a
concept for overcoming the efficiency limit of today's solar cells.
Accessible for beginners, while also providing detailed information
on the physics and technology for experts, the book is a valuable
resource for researchers, engineers, and graduate students in
fields such as physics, materials, energy, electrical and
electronic engineering and microelectronics.
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