Influence of Filament and Substrate Temperatures on Structural and Optoelectronic Properties of Narrow Gap a-SiGe:H Alloys Deposited by Hot-Wire CVD: Preprint

    Research output: Contribution to conferencePaper

    Abstract

    We have found that narrow-bandgap--1.25 < Tauc Gap < 1.50 eV--amorphous silicon germanium (a-SiGe:H) alloys grown by hot-wire chemical vapor deposition (CVD) can be improved by lowering both substrate and filament temperatures. We systematically studied films deposited using a one-tungsten filament, decreasing filament temperature (Tf) from our standard temperature of 2150? down to 1750?C, andfixing all other deposition parameters. By decreasing Tf at the fixed substrate temperature (Ts) of 180?C, the Ge-H bonding increases, whereas the Si-H2 bonding is eliminated. Films with higher Ge-H bonding and less Si-H2 have improved photoconductivity. For the series of films deposited using the same germane gas fraction at 35%, the energy where the optical absorption is 1x104 (E04) drops from1.54 to 1.41 eV with decreasing Tf. This is mainly due to the combination of an increasing Ge solid fraction (x) in the film, and an improved homogeneity and compactness due to significant reduction of microvoids, which was confirmed by small-angle X-ray scattering (SAXS). We also studied a series of films grown by decreasing the Ts from our previous standard temperature of 350?C down to 125?C,fixing all other deposition parameters including Tf at 1800?C. By decreasing Ts, both the total hydrogen content and the Ge-H bonding increased, but the Si-H2 bonding is not measurable in the Ts range of 180?-300?C. The E04 increases from 1.40 to 1.51 eV as Ts decreased from 350? to 125?C, mainly due to the increased total hydrogen content. At the same time, the photo-to-dark conductivity ratioincreases almost three orders of magnitude over this range of Ts.
    Original languageAmerican English
    Number of pages9
    StatePublished - 2003
    Event2003 Materials Research Society Spring Meeting - San Francisco, California
    Duration: 21 Apr 200325 Apr 2003

    Conference

    Conference2003 Materials Research Society Spring Meeting
    CitySan Francisco, California
    Period21/04/0325/04/03

    NREL Publication Number

    • NREL/CP-520-33936

    Keywords

    • amorphous silicon germanium
    • hot-wire chemical vapor deposition (HWCVD)
    • narrow bandgap
    • optoelectronic
    • photoconductivity
    • photosensitivity
    • PV
    • tandem solar cells
    • x-ray scattering (SAXS)

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