Simulation of crystalline silicon photovoltaic cells for wearable applications
Advancements in the semiconductor industry have enabled wearable devices to be used for
a wide range of applications, including personalised healthcare. Novel energy harvesting …
a wide range of applications, including personalised healthcare. Novel energy harvesting …
Performances analysis of heterojunction solar cells through integration of hydrogenated nanocrystalline silicon bilayer by using numerical study
This study was conducted to simulate a pin-type thin film solar cell by integrating nc-Si: H as
p-window and buffer layers. The structures proposed to investigated are ITO/(p) nc-Si: H/((i) …
p-window and buffer layers. The structures proposed to investigated are ITO/(p) nc-Si: H/((i) …
Solid state analysis of quarter pyramid c-Si/a-Si:H/µc-SiGe solar cells using 2D device characteristics
In this article, solid state analysis of microcrystalline silicon tandem solar cell, c-Si/a-Si: H/µ c-
SiGe, performed to investigate the lack of the efficiency in quarter pyramid solar cells. The …
SiGe, performed to investigate the lack of the efficiency in quarter pyramid solar cells. The …
Feature issue introduction: light, energy and the environment, 2017
The editors introduce the feature issue on “Energy, Light and the Environment (LEE) 2017”,
which is based on the topics presented at a congress of the same name held in Boulder, CO …
which is based on the topics presented at a congress of the same name held in Boulder, CO …
Effect of Temperature on the Efficiency of Thin Film Amorphous Silicon Tandem Heterojunction Solar Cells with AFORS-HET
Effect of Temperature on the Efficiency of Thin Film Amorphous Silicon Tandem Heterojunction
Solar Cells with AFORS-HET Page 1 JTu2A.27.pdf Frontiers in Optics / Laser Science © OSA …
Solar Cells with AFORS-HET Page 1 JTu2A.27.pdf Frontiers in Optics / Laser Science © OSA …