Cu(In,Ga)Se-2(CIGS) thin films were prepared at substrate temperatures of 3
50 to 500 degreesC. The (In,Ga),Se, precursor layers were deposited on Mo c
oated soda-lime glass and then exposed to Cu and Se fluxes to form CIGS fil
ms. The surface composition was probed by a real-time composition monitorin
g method. The CIGS films were characterized by x-ray diffraction, energy di
spersive x-ray spectroscopy, secondary ion mass spectroscopy, and atomic fo
rce microscopy. The transient formation of a Cu-Se phase with a high therma
l emissivity was observed during the deposition of Cu and Se at a substrate
temperature of 350 degreesC. Faster diffusion of In than Ga from the (In,G
a),Se, precursor to the newly formed CIGS layer was observed. A growth mode
l for CIGS films during the deposition of Cu and Se onto (In,Ga)(2)Se-3 pre
cursor is proposed. A solar cell using a CIGS film prepared at about 350 de
greesC showed an efficiency of 12.4%.