The Mexico Earthquake of September 19, 1985—A Theoretical Investigation of Large- and Small-scale Amplification Effects in the Mexico City Valley

Technologically the electrochemical deposition method through the influence of potential, temperature, pH and composition of reactants offers excellent control lover the properties of semiconductors Using a potentiostatic approach, the films of CdS were deposited on t i n oxide coated glass substrates at merent conditions. The films were found to be smooth, uniform and adherent 114th a small grain size. X-ray &tion analysis indicated a hexagonal phase rather than the cubic phase.Electrochemica1 deposition parameters were studied to

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Properties of ZnTe:Cu thin films and CdS/CdTe/ZnTe solar cells

Tang

Mao

Ohno

et al.

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Effect of CdCl₂ Treatment of CdS Films on CdTe/CdS Solar Cells

et al. 1996

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We investigated the effect of CdCl2 treatment of CdS films on the photovoltaic performance of polycrystalline CdTe/CdS solar cells. X-ray diffraction studies indicated that the diffusion of S into CdTe is qualitatively the same for CdTe/CdS films fabricated with both as-deposited and CdCl2-treated CdS. A major difference was observed in the extent of Te diffusion into CdS for the two types of CdS films. Full conversion of CdS into CdS1-yTey; was observed for films prepared with asdeposited CdS, while the formation of the ternary phase was below the detection limit for films prepared with CdCl2-treated CdS. Photoluminescence measurements confirmed this result. The difference in interdiffusion leads to differences in optical transmission of CdS films and spectral response of CdTe/CdS solar cells. An increase of 2.7 mA/cm2 in short-circuit current density was observed as a result of improved spectral response in the wavelength range of 500–600 nm for the CdCl2-treated CdS.

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The properties and optimization of ZnTe:Cu back contacts on CdTe/CdS thin film solar cells

Tang

Mao

Feng

et al. 1996

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Interdiffusion in polycrystalline thin-film CdTe/CdS solar cells

Mao

Feng

Zhu

et al. 1996

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Polycrystalline Thin-Film Cadmium Telluride Solar Cells Fabricated by Electrodeposition; Final Technical Report, 20 March 1995-15 June 1998

Trefny¹,

Mao²,

Kaydanov³

et al. 1999

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EXECUTIVE SUMMARY ObjectivesOne of the objectives of this project is to develop improved processes for the fabrication of high-efficiency CdTe/CdS polycrystalline thin film solar cells. The technique we use for the formation of CdTe, electrodeposition, is a non-vacuum, low-cost technique that is attractive for economic, large-scale production. The other objective was to study cell degradation, using stability tests under stress conditions and analysis of possible degradation mechanisms. Technical ApproachOur research and development efforts have focused on several steps that are most critical to the fabrication of high-efficiency CdTe solar cells. These include the optimization of the CdTe electrodeposition process, the effect of pre-treatment of CdS substrates, the post-deposition annealing of CdTe, and back contact formation using Cudoped ZnTe. Systematic investigations of these processing steps have led to better understanding and improved device performances of the CdTe-based solar cells.Stability tests under enhanced temperature showed that cell efficiency degradation is due mainly to an increase in "series resistance". Therefore the degradation processes studies were focused mostly on revealing and explaining the changes that occur in the back-contact region and in the bulk CdTe due to the ZnTe:Cu back contact presence. These changes were studied by means of detailed analyses of the cell I-V characteristics, the C-V profile in the CdTe, and compositional changes in the back-contact region. When discussing possible mechanisms of degradation, the compensation phenomena and charged impurities electromigration were taken into account. Major Results and ConclusionsCdS thin films prepared by chemical bath deposition. Film growth and structure.The structural properties of the films and the growth mechanisms were studied by investigating CdS samples prepared at different deposition times. A duplex structure with an inner compact layer and an outer porous layer and three growth stages can explain our data. The measurement of refractive index as a function of deposition time provides a simple way to determine the transition point from compact layer growth to porous layer growth, which is important for the optimization of CdS growth conditions in photovoltaic applications. Careful XRD analyses allowed unambiguous determination of crystal properties.Electrodeposited CdS Thin Films and their application.Electrodeposition is a non-vacuum technique and is compatible with our CdTe deposition process. It offers excellent control over the properties of the thin films through the influence of deposition potential, bath temperature, pH, and composition of reactants. In 2 this project preliminary studies were performed on the electrodeposition of CdS and its application in fabricating CdTe/CdS solar cells. The influence of deposition conditions on the film deposition rate, composition and morphology was studied. CdTe/CdS cells using electrodeposited and physical vapor deposited CdTe on electrodeposited CdS were prepared and ch...

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D. Mao

Uniqueness, scale, and resolution issues in groundwater model parameter identification

The structural, optical, and electrical properties of vacuum evaporated Cu-doped ZnTe polycrystalline thin films

Electrodeposited CdS thin films and their application in CdS/CdTe solar cells

Properties of ZnTe:Cu thin films and CdS/CdTe/ZnTe solar cells

Effect of CdCl₂ Treatment of CdS Films on CdTe/CdS Solar Cells

The properties and optimization of ZnTe:Cu back contacts on CdTe/CdS thin film solar cells

Interdiffusion in polycrystalline thin-film CdTe/CdS solar cells

Polycrystalline Thin-Film Cadmium Telluride Solar Cells Fabricated by Electrodeposition; Final Technical Report, 20 March 1995-15 June 1998

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D. Mao

Uniqueness, scale, and resolution issues in groundwater model parameter identification

The structural, optical, and electrical properties of vacuum evaporated Cu-doped ZnTe polycrystalline thin films

Electrodeposited CdS thin films and their application in CdS/CdTe solar cells

Properties of ZnTe:Cu thin films and CdS/CdTe/ZnTe solar cells

Effect of CdCl2 Treatment of CdS Films on CdTe/CdS Solar Cells

The properties and optimization of ZnTe:Cu back contacts on CdTe/CdS thin film solar cells

Interdiffusion in polycrystalline thin-film CdTe/CdS solar cells

Polycrystalline Thin-Film Cadmium Telluride Solar Cells Fabricated by Electrodeposition; Final Technical Report, 20 March 1995-15 June 1998

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Product

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Effect of CdCl₂ Treatment of CdS Films on CdTe/CdS Solar Cells