| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1549375 | Solar Energy | 2016 | 42 Pages |
Abstract
Additionally, the state of knowledge on the influence of these tests on the individual layers of the CIGS solar cell has been summarized. Dedicated chapters review the stability of both, the transparent conducting ZnO:Al front contact and the molybdenum back contact, as well as on the CIGS and buffer layers. Stability issues related to the module design of CIGS PV, like the application of grid structures and monolithic interconnection, are discussed as well.
Keywords
WVTRCISCBDSKPVOCSLGOVCALTTPTTRPLGSHDLTSEVACuInSe2PIDEQEILGARAFMRSHCTEXESPVBCIGSSeTCOJscCuIn(Se,S)2PECVDCIGSPLDLPCVDZnO:AlALDAccelerated lifetime testingEthylene vinyl acetateScanning kelvin probeTransparent conductive oxideZinc oxideIndium Zinc OxideAluminum doped zinc oxideFluorine doped tin oxideIndium tin oxideIZOITOExternal quantum efficiencyMobilityPotential induced degradationDegradationStabilityOrdered vacancy compoundDC, Direct currentDamp heatFTORoom temperatureAtomic layer depositionRelative humidityTime resolved photoluminescencehydrogenated amorphous siliconSoda lime glassCoefficient of Thermal ExpansionLong termX-ray emission spectroscopyDeep level transient spectroscopyCapacitance–voltageCarrier concentrationFill factorPhotovoltaicsRadio frequencyPhotoluminescenceLock-in thermographyPulsed laser depositionLitShort circuit currentReviewCu(In,Ga)(Se,S)2Cu(In,Ga)Se2ResistivityContact resistanceSeries resistanceShunt resistanceSheet resistanceMolybdenumAtomic Force MicroscopeWater vapor transmission ratechemical bath depositionopen circuit voltagePETPlasma enhanced chemical vapor depositionPolyethylene terephthalatePolyvinylbutyralIon chromatographyLow pressure chemical vapor depositionInternational Electrotechnical CommissionIECa-Si:H
Related Topics
Physical Sciences and Engineering
Energy
Renewable Energy, Sustainability and the Environment
Authors
Mirjam Theelen, Felix Daume,