Title :
Selenization of copper indium gallium disulfide nanocrystal films for thin film solar cells
Author :
Guo, Qijie ; Ford, Grayson M. ; Hillhouse, Hugh W. ; Agrawal, Rakesh
Author_Institution :
Sch. of Chem. Eng., Purdue Univ., West Lafayette, IN, USA
Abstract :
Recently, numerous non-vacuum methods have been demonstrated for the fabrication of Cu(InxGa1-x)Se2 (CIGSe) thin films and solar cells via selenization of various precursor materials. However, composition control and uniformity at all scales remains a challenge. Here we present a promising alternative approach using Cu(In1-xGax)S2 (CIGS) nanocrystal inks for low cost fabrication of CIGSSe absorber films. By using nanocrystal inks of CIGS as the precursor for selenization, the composition can be controlled at all scales. Nanocrystals with varying Ga concentration can also be used to form graded band gap CIGSSe absorber film. Initial devices fabricated using a graded CIGSSe absorber layer showed a photon to electricity conversion efficiency of 6.23% corresponding to an active area efficiency of 7.10% under AM1.5 illumination.
Keywords :
copper compounds; gallium compounds; indium compounds; liquid phase deposition; nanofabrication; nanostructured materials; semiconductor growth; semiconductor thin films; solar cells; ternary semiconductors; thin film devices; CuIn1-xGaxS2Se; active area efficiency; graded band gap absorber film; nanocrystal films; nanocrystal inks; photon-to-electricity conversion efficiency; selenization; solar cells; thin films; Copper; Costs; Fabrication; Gallium compounds; Indium; Ink; Nanocrystals; Photonic band gap; Photovoltaic cells; Transistors;
Conference_Titel :
Photovoltaic Specialists Conference (PVSC), 2009 34th IEEE
Conference_Location :
Philadelphia, PA
Print_ISBN :
978-1-4244-2949-3
Electronic_ISBN :
0160-8371
DOI :
10.1109/PVSC.2009.5411426
