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Investigations on the mechanical properties of the elementary thin films composing a CuIn1 − xGaxSe2 solar cell using the nanoindentation technique

dc.contributor.author
 hal.structure.identifier		ABIB, Hocine
38466 Unité de Recherche Matériaux et Energies Renouvelables [URMER]
dc.contributor.authorIOST, Alain
dc.contributor.author
 hal.structure.identifier		RAHMOUN, Khadidja
38466 Unité de Recherche Matériaux et Energies Renouvelables [URMER]
dc.contributor.author
 hal.structure.identifier		AYACHI, Boubakeur
1296 Institut d’Électronique, de Microélectronique et de Nanotechnologie - UMR 8520 [IEMN]
dc.contributor.author
 hal.structure.identifier		VILCOT, Jean-Pierre
1296 Institut d’Électronique, de Microélectronique et de Nanotechnologie - UMR 8520 [IEMN]
dc.contributor.author
 hal.structure.identifier		MONTAGNE, Alex
211915 Mechanics surfaces and materials processing [MSMP]
dc.date.accessioned2017
dc.date.available2017
dc.date.issued2017
dc.date.submitted2017
dc.identifier.urihttp://hdl.handle.net/10985/11965
dc.description.abstractIn this investigation, the mechanical properties of the different layers composing a CuIn1 − xGaxSe2 (CIGS) based solar cell were studied. Magnetron sputtering technique was used for the deposition of these layers except for the cadmium sulphide (CdS) layer which was deposited using chemical bath deposition process. We performed several indentation tests on the individual layers, i.e. molybdenum (Mo) back contact layer, CIGS absorber layer, CdS and alternative zinc sulphide oxide (ZnOS) buffer layers, and zinc oxide (ZnO)-AZO (aluminium-doped zinc oxide) transparent window layer; all were deposited on glass substrates. We report the values of the hardness (H) and of the Young's modulus (E) for each material, using indentation tests and an analytical model. The Mo layer remained the hardest and the most rigid, with H = 8.7 GPa and E = 185 GPa, while the CIGS layer has shown poor mechanical properties with H=3GPa and E=58 GPa. On the other hand, the observed similarity in mechanical properties of the ZnO and ZnOS layers might be attributed to the similarity of their microstructures.
dc.language.isoen
dc.publisherElsevier
dc.rightsPost-print
dc.subjectCopper indium gallium selenide
dc.subjectSolar cells
dc.subjectMechanical properties
dc.subjectHardness
dc.subjectYoung modulus
dc.subjectNanoindentation
dc.titleInvestigations on the mechanical properties of the elementary thin films composing a CuIn1 − xGaxSe2 solar cell using the nanoindentation technique
ensam.embargo.terms1
dc.identifier.doi10.1016/j.tsf.2016.11.013
dc.typdocArticle dans une revue avec comité de lecture
dc.localisationCentre de Lille
dc.subject.halPhysique: matière Condensée: Science des matériaux
dc.subject.halSciences de l'ingénieur: Matériaux
dc.subject.halSciences de l'ingénieur: Mécanique: Mécanique des matériaux
ensam.audienceInternationale
ensam.page1-5
ensam.journalThin Solid Films
ensam.peerReviewingOui
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