학술논문
18.2% (AM1.5) efficient GaAs solar cell on optical-grade polycrystalline Ge substrate
Document Type
Conference
Author
Source
Conference Record of the Twenty Fifth IEEE Photovoltaic Specialists Conference - 1996 Photovoltaic Specialists Conference, 1996., Conference Record of the Twenty Fifth IEEE. :31-36 1996
Subject
Language
ISSN
0160-8371
Abstract
In this work, the authors present GaAs material and device-structure optimization studies that have led to achieve a open-circuit voltage of /spl sim/1 volt and a best solar cell efficiency of 18.2% under AM1.5G illumination, for a 4 cm/sup 2/ area GaAs cell on commercially-available, cast, optical-grade polycrystalline Ge substrate. This V/sub /spl infin// is almost 70 mV higher than on their previously-reported best GaAs cell on similar substrates. They discuss the growth of high-quality GaAs-AlGaAs layers, across the various crystalline orientations of a polycrystalline Ge substrate, important for obtaining good device performance. Optimization studies of the minority-carrier properties of GaAs layers on poly-Ge substrates have revealed that lifetime-spread across various grains can be reduced through the use of lower doping for the Al/sub 0.8/Ga/sub 0.2/As confinement layers. The cell-structure optimization procedures for improved V/sub /spl infin// and cell efficiency, include the use of thinner emitters, a spacer layer near the p/sup +/-n junction and an improved window layer. An experimental study of dark currents in these junctions, with and without the spacer, as a function of temperature (77 K to 288 K) is presented indicating that the spacer reduces the tunneling contribution to dark current.