Title :
Implementation of rapid thermal processing to achieve greater than 15% efficient screen-printed ribbon silicon solar cells
Author :
Rohatgi, A. ; Yelundur, V. ; Jeong, J.-W. ; Kim, D.S. ; Gabor, A.M.
Author_Institution :
Univ. Centre of Excellence for Photovoltaics Res. & Educ., Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
This paper summarizes our progress in fabricating record-high efficiency ribbon Si solar cells with screen-printed and photolithography defined contacts. We have developed and optimized rapid thermal processing enhanced SiN/sub x/-induced hydrogenation to achieve record-high efficiency screen-printed EFG (15.9%) and String Ribbon (15.6%) cells and a high-efficiency string ribbon cell (17.8%) with photolithography defined contacts. A low-frequency SiN/sub x/ film and a two-step RTP firing process were critical in achieving high-efficiency screen-printed cells. Step 1 provides SiN/sub x/ induced hydrogenation and forms an aluminum doped back surface field. Step 2 is designed for Ag grid firing and includes rapid cooling to retain hydrogen introduced in Step 1.
Keywords :
aluminium; diffusion; elemental semiconductors; passivation; photolithography; plasma CVD; rapid thermal annealing; silicon; silicon compounds; silver; solar cells; thin films; Ag grid firing; Ag-SiN/sub x/-Si:H; Al-SiN/sub x/-Si:H; RTP firing; SiN/sub x/ induced hydrogenation; aluminum doped back surface field; photolithographic contact; rapid cooling; rapid thermal processing; screen printed ribbon Si solar cell; screen printed ribbon silicon solar cell;
Conference_Titel :
Photovoltaic Energy Conversion, 2003. Proceedings of 3rd World Conference on
Conference_Location :
Osaka, Japan
Print_ISBN :
4-9901816-0-3
