Solar Cell Device Physics (e-bog) af Fonash, Stephen
Fonash, Stephen (forfatter)

Solar Cell Device Physics e-bog

729,17 DKK (inkl. moms 911,46 DKK)
There has been an enormous infusion of new ideas in the field of solar cells over the last 15 years; discourse on energy transfer has gotten much richer, and nanostructures and nanomaterials have revolutionized the possibilities for new technological developments. However, solar energy cannot become ubiquitous in the world's power markets unless it can become economically competitive with legac...
E-bog 729,17 DKK
Forfattere Fonash, Stephen (forfatter)
Udgivet 17 juni 2010
Længde 381 sider
Genrer Alternative and renewable energy sources and technology
Sprog English
Format pdf
Beskyttelse LCP
ISBN 9780080912271
There has been an enormous infusion of new ideas in the field of solar cells over the last 15 years; discourse on energy transfer has gotten much richer, and nanostructures and nanomaterials have revolutionized the possibilities for new technological developments. However, solar energy cannot become ubiquitous in the world's power markets unless it can become economically competitive with legacy generation methods such as fossil fuels. The new edition of Dr. Stephen Fonash's definitive text points the way toward greater efficiency and cheaper production by adding coverage of cutting-edge topics in plasmonics, multi-exiton generation processes, nanostructures and nanomaterials such as quantum dots. The book's new structure improves readability by shifting many detailed equations to appendices, and balances the first edition's semiconductor coverage with an emphasis on thin-films. Further, it now demonstrates physical principles with simulations in the well-known AMPS computer code developed by the author. Classic text now updated with new advances in nanomaterials and thin films that point the way to cheaper, more efficient solar energy production Many of the detailed equations from the first edition have been shifted to appendices in order to improve readability Important theoretical points are now accompanied by concrete demonstrations via included simulations created with the well-known AMPS computer code