Catherine E. Caley scite author profile

Amorphous carbon films are (a-C:H) of interest because of their useful physical properties. They are extremely hard and chemically inert, resisting degradation by both acids and alkalis. They are insoluble and can be conformably coated onto virtually any substrate. These properties make the films ideal protective coatings on magnetic disks and tools. We have studied several thin (one to two micron) films prepared by plasma enhanced chemical vapor deposition with varying radiofrequency fields strengths to determine structural differences at the atomic level. Several properties of the films, such as hardness and wear rate, are dependent on deposition power. We have found that the sp2/sp3 ratio increases with increasing deposition power. Thus, films that are harder are more “graphitic” and less “diamondlike”. The films studied here contain 11–16 atomic percent hydrogen, most of which is associated with sp3 carbon sites. At least two distinct phases of hydrogens exist. Variable temperature studies reveal that, in contrast to amorphous hydrogenated silicon, proton linewidths in carbon films are temperature dependent, suggesting some molecular motion is present at room temperature.

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Thermal modulation spectroscopy of the high transition temperature superconductors

Holcomb

Caley

Yee

et al. 1989

Physica C: Superconductivity and its Applications

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Catherine E. Caley

XPS and EXAFS studies of the reactions of cobalt(III) ammine complexes with gallium arsenide surfaces

Hydration and Aggregation Neutral Oxygen-Donor Extractants Hydration and Aggregation of Monofunctional Sulfoxide and Other Neutral Oxygen-Donor Extractants: The D1(2-Ethylhexyl) Sulfoxide, Dodecane, Water System

ChemInform Abstract: XPS and EXAFS Studies of the Reactions of Co(III) Ammine Complexes with GaAs Surfaces.

Solid-State NMR Studies of the Bonding Structure of Diamondlike Amorphous Carbon Films

Thermal modulation spectroscopy of the high transition temperature superconductors

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