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W2017233493 abstract "The addition of silicon to hydrogenated amorphous carbon can have the advantageous effect of lowering the compressive stress, improving the thermal stability of its hydrogen, and maintaining a low friction coefficient up to high humidity. Most experiments to date have been on hydrogenated amorphous carbon–silicon alloys (a-C1−xSix:H) deposited by rf plasma enhanced chemical vapor deposition. This method gives alloys with sizeable hydrogen content and only moderate hardness. Here we use a high plasma density source known as the electron cyclotron wave resonance source to prepare films with higher sp3 content and lower hydrogen content. The composition and bonding in the alloys is determined by x-ray photoelectron spectroscopy, Rutherford backscattering, elastic recoil detection analysis, visible and ultraviolet (UV) Raman spectroscopy, infrared spectroscopy, and x-ray reflectivity. We find that it is possible to produce relatively hard, low stress, low friction, almost humidity insensitive a-C1−xSix:H alloys with a good optical transparency and a band gap well over 2.5 eV. The friction behavior and friction mechanism of these alloys are studied and compared with that of a-C:H, ta-C:H, and ta-C. We show how UV Raman spectroscopy allows the direct detection of Si–C, Si–Hx, and C–Hx vibrations, not seen in visible Raman spectra." @default.
W2017233493 created "2016-06-24" @default.
W2017233493 creator A5009524446 @default.
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W2017233493 creator A5061886400 @default.
W2017233493 date "2001-11-15" @default.
W2017233493 modified "2023-09-27" @default.
W2017233493 title "Properties of amorphous carbon–silicon alloys deposited by a high plasma density source" @default.
W2017233493 cites W1504215634 @default.
W2017233493 cites W1964003697 @default.
W2017233493 cites W1966463079 @default.
W2017233493 cites W1970533496 @default.
W2017233493 cites W1970742329 @default.
W2017233493 cites W1971260593 @default.
W2017233493 cites W1972855494 @default.
W2017233493 cites W1978699275 @default.
W2017233493 cites W1984741555 @default.
W2017233493 cites W1985303787 @default.
W2017233493 cites W1986669188 @default.
W2017233493 cites W1991194540 @default.
W2017233493 cites W1992686545 @default.
W2017233493 cites W1996632985 @default.
W2017233493 cites W1996928631 @default.
W2017233493 cites W1997521957 @default.
W2017233493 cites W1998508788 @default.
W2017233493 cites W2001209354 @default.
W2017233493 cites W2001447154 @default.
W2017233493 cites W2001605900 @default.
W2017233493 cites W2003825355 @default.
W2017233493 cites W2005442885 @default.
W2017233493 cites W2006930423 @default.
W2017233493 cites W2006967037 @default.
W2017233493 cites W2007576784 @default.
W2017233493 cites W2007689160 @default.
W2017233493 cites W2008213143 @default.
W2017233493 cites W2008885699 @default.
W2017233493 cites W2009693153 @default.
W2017233493 cites W2011182655 @default.
W2017233493 cites W2018080928 @default.
W2017233493 cites W2020505007 @default.
W2017233493 cites W2023940050 @default.
W2017233493 cites W2027956583 @default.
W2017233493 cites W2029156225 @default.
W2017233493 cites W2035773069 @default.
W2017233493 cites W2042223815 @default.
W2017233493 cites W2044608825 @default.
W2017233493 cites W2045070282 @default.
W2017233493 cites W2047063852 @default.
W2017233493 cites W2048877752 @default.
W2017233493 cites W2052943490 @default.
W2017233493 cites W2053419823 @default.
W2017233493 cites W2053473718 @default.
W2017233493 cites W2054215461 @default.
W2017233493 cites W2060967978 @default.
W2017233493 cites W2064467938 @default.
W2017233493 cites W2066851402 @default.
W2017233493 cites W2073278084 @default.
W2017233493 cites W2074141197 @default.
W2017233493 cites W2074672014 @default.
W2017233493 cites W2076462031 @default.
W2017233493 cites W2077550092 @default.
W2017233493 cites W2082463750 @default.
W2017233493 cites W2087599743 @default.
W2017233493 cites W2088074790 @default.
W2017233493 cites W2090116919 @default.
W2017233493 cites W2120376941 @default.
W2017233493 cites W2123767028 @default.
W2017233493 cites W2235679284 @default.
W2017233493 cites W2483805890 @default.
W2017233493 cites W4211184409 @default.
W2017233493 cites W92328076 @default.
W2017233493 doi "https://doi.org/10.1063/1.1406966" @default.
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