Title :
A germanium back contact type cell for thermophotovoltaics
Author :
Nagashima, Tomonori ; Hokoi, Koji ; Okumura, Kenichi ; Yamaguchi, Masafumi
Author_Institution :
Future Project Div., Toyota Motor Corp., Shizuoka, Japan
Abstract :
A Ge back contact type photovoltaic cell has been proposed to reduce resistance loss for high current densities in thermophotovoltaic systems. This structure requires low surface recombination velocities. A SiO2/SiNx double AR coating including a high refractive index SiNx layer was studied. The SiNx layer has a high enough passivation effect to obtain high efficiency. The quantum efficiency was around 0.8 in the 800-1600 nm wavelength range. The efficiency for emitted infrared lights was estimated at 18% for a blackbody surface and 25% for a selective emitter. A higher efficiency will be obtained by using a low resistance substrate after the recombination loss is decreased, due to the improved SiNx passivation layer and the floating emitter. It is considered that the Ge cell efficiency will increase in excess of 30% for infrared light by using these structures.
Keywords :
antireflection coatings; current density; electrical resistivity; elemental semiconductors; germanium; infrared spectra; passivation; photovoltaic effects; refractive index; silicon compounds; surface recombination; thermophotovoltaic cells; 18 percent; 25 percent; 800 to 1600 nm; SiO2-SiNx-Ge; SiO2/SiNx double AR coating; blackbody surface; current density; floating emitter; germanium back contact type cell; infrared light emitter; low resistance substrate; passivation effect; passivation layer; photovoltaic cell; quantum efficiency; recombination loss; refractive index; resistance loss reduction; selective emitter; surface recombination velocity; thermophotovoltaics; Coatings; Contact resistance; Current density; Germanium; Passivation; Photovoltaic cells; Radiative recombination; Silicon compounds; Surface resistance; Thermal resistance;
Conference_Titel :
Photovoltaic Specialists Conference, 2005. Conference Record of the Thirty-first IEEE
Print_ISBN :
0-7803-8707-4
DOI :
10.1109/PVSC.2005.1488217
