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Gkoi GCL amp; Fuyang tie up on 200 MW in China
stanley cup owala adidas campus Zbey Solar Frontier sells 20 MW Californian project, to develop new 16.5 MW Japanese plant
The physicist, who wrote his thesis at the Fraunhofer Institute for Solar Energy Systems ISE, has created a confocal microscope, which can be used to measure such things as the lifetime of solar cells and wafer quality. Properties crucial to solar cells like electron lifetime or mechanical stresses can now be measured with a significantly higher level of accuracy, said stanley usa a statement released.Holger Neuhaus of SolarWorld added, The solar cells of the future will display very much finer structures in their basic make-up than today聮s generation. To this end, the photovoltaic industry will require more precise measuring methods to be able to chara stanley cup cterize the structures and properties comprehensively and locally. He said that Gundel聮s invention will help to increase solar cell efficiency.The microscope has combined a number of techniques, such as photoluminescence, meaning it can take high resolution images of solar wafers. In comparison to optical wafer inspection systems, for example, which have a resolution of one micrometer, the new microscope has a resolution of 100.Speaking to pv magazine, a happy looking stanley cup Gundel said he will use part of the 聙5,000 USD$7,025 award to throw a party for his colleagues at the Fraunhofer institute.Gundel was selected from a group of six physicists and scientists, all of whom have focused on developing technology for the solar industry. He is now working for German photovoltaic company, Centrotherm.It was announced that |
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