Solceller i undervisningen. Et projekt der skal styrke kendskabet til ...
Solceller i undervisningen. Et projekt der skal styrke kendskabet til ...
Solceller i undervisningen. Et projekt der skal styrke kendskabet til ...
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9783540004059 Organic Photovoltaics Jul. 2003 Akademisk Achieving efficient solar energy conversion at both large<br />
scale and low cost is among the most important<br />
technological challenges for the near future. The present<br />
volume describes and explains the fundamentals of<br />
organic/plastic solar cells in a manner accessible to both<br />
researchers and students. It provides a comprehensive<br />
analysis of the operational principles un<strong>der</strong>lying several<br />
types of solar cells that have absorber layers based on<br />
polymer materials and small molecules. It addresses<br />
competing approaches, such as polymer solar cells and<br />
dye-sensitized cells, while consi<strong>der</strong>ing the<br />
thermodynamic principles within the context of these<br />
schemes. Organic Photovoltaics also analyzes in detail<br />
the charge-transfer processes in the bulk-heterojunction<br />
devices corresponding to the relevant mechanism of<br />
carrier generation. Emphasized throughout is the<br />
concept of interpenetrating polymer-fullerene networks,<br />
due to their high potential for improving power<br />
efficiency.<br />
9783481017767 Gebäudeintegrie<br />
rte Photovoltaik.<br />
9780470091265 Thin Film Solar<br />
Cells:<br />
Fabrication,<br />
Characterization<br />
and Applications<br />
9781860943492 The Physics of<br />
Solar Cells<br />
(Properties of<br />
Semiconductor<br />
Materials)<br />
Maj 2002 Arkitekter og<br />
ingeniører<br />
m.m.<br />
Nov. 2006 postgraduate<br />
researchers in<br />
the PV<br />
domain,<br />
industrial<br />
researchers in<br />
the PV<br />
domain and<br />
photonics<br />
professionals.<br />
Sep. 2003 Stu<strong>der</strong>ende<br />
Architektonische Integration <strong>der</strong> Photovoltaik.<br />
This book is the first comprehensive overview covering<br />
the different thin-film solar cell technologies: from the<br />
more “classical ones” (a-Si:H, CdTe, CIS) to the novel<br />
ones which are making their way from the lab to actual<br />
production. The book not only provides the rea<strong>der</strong> with<br />
a good overview but also provides recent insights on<br />
advanced characterization, device modelling and<br />
upscaling of the different approaches.<br />
Jenny Nelson has provided a splendidly clear, concise<br />
and readable account of the basic semiconductor<br />
physics of the solar cell, complete with student<br />
exercises and solutions. In the two fascinating final<br />
chapters, she takes her rea<strong>der</strong>s beyond the limit of<br />
performance of the present-day crystalline silicon cell,<br />
describing advanced design concepts that could provide<br />
3 2/3 680<br />
2 3 270<br />
3 2/3 960<br />
3 2/3 180