Experiments Involving Correlations Between CdTe Solar Cell Fabrication History and Intrinsic Device Stability

    Research output: Contribution to conferencePaper

    Abstract

    An orthogonal full-factorial design was used to study the effect of CdS and CdTe layer thickness, oxygen ambient during vapor CdCl2 (VCC) and the use of nitric-phosphoric (NP) acid as a pre-contact etch on the initial and stressed performance of CdS/CdTe small-area devices. The best initial device efficiency (using thinner CdS, thicker CdTe, no oxygen during VCC, and NP etch) also showed poorstability. Increasing the CdS thickness significantly improved stability with only a slight decrease in resulting initial performance. All devices used a thin margin of CdTe around the perimeter of the backcontact that was shown to significantly reduce catastrophic degradation and improve overall test statistics. The latter degradation is modeled by the formation of a weak-diode/low shuntresistance localized near the edge of finished devices. This shunting is believed to occur through the CdS/CdTe interface, rather than along the device edge, and is exacerbated by thinner CdS films.
    Original languageAmerican English
    Number of pages7
    StatePublished - 2005
    Event31st IEEE Photovoltaics Specialists Conference and Exhibition - Lake Buena Vista, Florida
    Duration: 3 Jan 20057 Jan 2005

    Conference

    Conference31st IEEE Photovoltaics Specialists Conference and Exhibition
    CityLake Buena Vista, Florida
    Period3/01/057/01/05

    NREL Publication Number

    • NREL/CP-520-37426

    Keywords

    • back contacts
    • fabrication history
    • intrinsic device stability
    • layer thickness
    • nitric-phosphoric (NP)
    • PV
    • small-area
    • solar cells

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