Title :
String ribbon silicon solar cells with 17.8% efficiency
Author :
Kim, D.S. ; Gabor, A.M. ; Yelunder, V. ; Upadhyaya, A.D. ; Meemongkolkiat, V. ; Rohatgi, A.
Author_Institution :
Univ. Center for Excellence in Photovoltaic Res. & Educ., Atlanta, GA, USA
Abstract :
We have fabricated 4 cm/sup 2/ cells on string ribbon Si wafers with efficiencies of 17.8% using a combination of laboratory and industrial processes. These are the most efficient string ribbon devices made to date, demonstrating the high quality of the processed silicon and the future potential for industrial string ribbon cells. Co-firing PECVD (plasma enhanced chemical vapor deposition) silicon nitride (SiN/sub x/) and Al was used to boost the minority carrier lifetime of bulk Si. Photolithography front contacts were used to achieve low shading losses and low contact resistance with a good blue response. The firing temperature and time were studied with respect to the trade-off between hydrogen retention and aluminum back surface field (Al-BSF) formation. Bulk defect hydrogenation and deep Al-BSF formation took place in a very short time (/spl sim/1 sec) at temperatures higher than 740/spl deg/C.
Keywords :
carrier lifetime; contact resistance; elemental semiconductors; hydrogenation; photolithography; plasma CVD; semiconductor devices; silicon; solar cells; PECVD; Si; aluminum back surface field formation; blue response; bulk defect hydrogenation; cofiring; contact resistance; hydrogen retention; industrial processes; laboratory processes; minority carrier lifetime; photolithography; plasma enhanced chemical vapor deposition; shading losses; silicon nitride; string ribbon devices; string ribbon silicon solar cell efficiency;
Conference_Titel :
Photovoltaic Energy Conversion, 2003. Proceedings of 3rd World Conference on
Print_ISBN :
4-9901816-0-3
