1996
DOI: 10.1016/0927-0248(95)00122-0
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Band-gap engineering in Cu(In,Ga) Se2 thin films grown from (In,Ga)2Se3 precursors

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Cited by 212 publications
(78 citation statements)
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“…CuGaSe 2 (CGS) with a band gap of 1.7 eV is one of the ideal compounds to be used as the top cell for a tandem photovoltaic device. Different processes for preparing CGS films have been proposed, such as the bilayer and the three-stage process [2,3]. The three-stage process has produced the best device efficiencies to date [4].…”
Section: Introductionmentioning
confidence: 99%
“…CuGaSe 2 (CGS) with a band gap of 1.7 eV is one of the ideal compounds to be used as the top cell for a tandem photovoltaic device. Different processes for preparing CGS films have been proposed, such as the bilayer and the three-stage process [2,3]. The three-stage process has produced the best device efficiencies to date [4].…”
Section: Introductionmentioning
confidence: 99%
“…The transition from CuIn 3 Se 5 to CuInSe 2 can take place purely by cation exchange 26 within the fcc-type Se sublattice, accompanied by lattice expansion. 18 Thus, formation of compressive stress is expected due to the rigid substrate.…”
Section: B Correlation Between Strain Relaxation and Grain Growthmentioning
confidence: 99%
“…4042 This means that the diffusion of one In atom is directly coupled to diusion of 3 Cu atoms in the opposite direction. 26 Assuming further that the cation diusion takes place in a rigid Se sublattice, the three-component Cu-In diusion problem can be reduced to a one-component diusion problem. Since close to the CuInSe 2 stoichiometry the concentration of the defect complexes is dilute, Fickian diusion can be applied:…”
Section: Diusion and Phase Boundariesmentioning
confidence: 99%
“…In addition, an increasing gallium content towards the molybdenum back contact is expected to enhance carrier collection and to decrease recombination via asymmetric diffusion, repelling electrons from the Cu(In,Ga)Se 2 /Mo interface. [5][6][7][8][9][10] The combination of a gallium grading towards the front and the back interfaces is commonly referred to as double grading. In general, a double grading within a Cu(In, Ga)Se 2 thin film can be achieved via the standard three-stage co-evaporation growth process.…”
Section: Introductionmentioning
confidence: 99%