Title :
High quality thermally diffused p+-n InP structures
Author :
Faur, M. ; Faur, M. ; Goradia, C. ; Goradia, M. ; Weinberg, I.
Author_Institution :
Dept. of Electr. Eng., Cleveland State Univ., OH, USA
Abstract :
Cd diffusion and Zn diffusion into n-InP:S (ND =3.5×1016 and 4.5×1017 cm-3) were performed by a closed ampoule technique at diffusion temperatures from 500 to 600°C by using either high-purity Cd and Zn or Cd3P2 and Zn3P2. The Czochralski LEC grown substrates with etch pit densities (EPDs) from 3×104 to 7×104 cm-2 were used. Diffusions were performed through either bare surfaces or using SiO2 (50-100 Å thick) and phosphorus-rich anodic and chemical oxides (25-50 Å thick) as cap layers. Specular surfaces have been obtained after Cd diffusion from Cd3P2 through P-rich oxide cap layers with a very low surface dislocation density which goes through a minimum of 400-800 cm-2 at the diffusion temperature of 560°C. AM0 250°C Voc values as high as 860 mV from solar cells made on these structures are reported
Keywords :
III-V semiconductors; dislocation density; indium compounds; p-n homojunctions; semiconductor doping; solar cells; surface diffusion; 500 to 600 degC; 560 degC; 860 mV; Czochralski LEC grown substrates; InP:S,Cd; InP:S,Zn; P-rich oxide cap layers; SiO2; closed ampoule technique; diffusion temperatures; etch pit densities; p+-n InP structures; solar cells; specular surfaces; surface dislocation density; thermally diffused structures; Chemicals; Etching; Indium phosphide; NASA; Photovoltaic cells; Scanning electron microscopy; Surface topography; Surface treatment; Temperature; Zinc;
Conference_Titel :
Indium Phosphide and Related Materials, 1991., Third International Conference.
Conference_Location :
Cardiff
Print_ISBN :
0-87942-626-8
DOI :
10.1109/ICIPRM.1991.147359
