Publication | Closed Access
Determination of the band gap depth profile of the penternary Cu(In(1−X)GaX)(SYSe(1−Y))2 chalcopyrite from its composition gradient
171
Citations
9
References
2004
Year
Optical MaterialsEngineeringEg ProfileComposition GradientChemistryIi-vi SemiconductorOptical PropertiesSuperconductivityQuantum MaterialsMaterials SciencePhysicsLayered MaterialMicrostructureCigsse SampleTransition Metal ChalcogenidesMaterial AnalysisPenternary CuNatural SciencesMaterials CharacterizationApplied PhysicsCondensed Matter PhysicsAlloy Phase
A simple model is introduced which determines the optical band-gap energy Eg for penternary Cu(In(1−X)GaX)(SYSe(1−Y))2 (CIGSSe) alloys from its Ga∕(Ga+In) ratio as well as from its S∕(S+Se) ratio. In order to verify the model the depth dependent composition of a CIGSSe sample was revealed by elastic recoil detection analysis. Applying the model, the concentration profiles were transferred in an Eg profile. Finally, these values were compared with optical band-gap energies, which were obtained directly by independent characterization methods.
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