Journal
JOURNAL OF THE ELECTROCHEMICAL SOCIETY
Volume 158, Issue 7, Pages H741-H749Publisher
ELECTROCHEMICAL SOC INC
DOI: 10.1149/1.3591045
Keywords
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Funding
- CONACYT-Mexico
- DGAPA-UNAM [IN110008]
- CONACYT [CB-79938]
- [ICYTDF-307/2009]
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Feasibility of combining p-type crystalline Si (c-Si) of 200-8000 nm in thickness with an n-type bismuth sulfide (Bi2S3) thin film of 300 nm in thickness for thin film solar cell is analyzed. Theoretical analysis shows that the high optical absorption coefficient (10(5) cm(-1)) of Bi2S3 results in a light-generated current density (J(L)) of > 20 mA/cm(2) for a c-Si(200 nm)/Bi2S3(300 nm) stack at a combined film thickness of 500 nm, and with an open circuit voltage (V-oc) of nearly 600 mV. Proof-of-concept cell structures were prepared on p-type c-Si wafers of electrical resistivity 1 X cm. Any oxide layer at the interface significantly deteriorates the cell parameters. In a cell prepared using evaporated n-Bi2S3 on (p) c-Si, J(sc) is 3 mA/cm(2); Voc is 360 mV; and g is 0.5%; which improved to: 7.2 mA/cm(2), 485 mV and 1.7%, respectively, after heating the cell in forming gas. A cell with an Sb2S3 (40 nm) thin film as an antireflective coating on Bi2S3, produced: Jsc of 10 mA/cm(2); Voc of 480 mV; and g of 2.4%. Theoretical simulation suggests that better cell fabrication could lead to: J(sc) of 26 mA/cm(2); V-oc of 600 mV; and eta of 10%. (C) 2011 The Electrochemical Society. [DOI: 10.1149/1.3591045] All rights reserved.
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