Structure-property relationships in dual-frequency plasma deposited hard a-C : H films
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Cited by (38)
Effect of unbonded hydrogen on amorphous carbon film deposited by PECVD with annealing treatment
2018, Diamond and Related MaterialsCitation Excerpt :The molecular structures of a-C:H were investigated by FTIR as was plotted in Fig. 2(a). Importantly, it could be seen that the CH stretching vibration intensity between 2700 cm− 1 and 3200 cm− 1 was extremely weak as compared to the previous investigations [11–17,20–22]. Besides, the few hydrocarbon molecules were undetectable after annealing at 230 °C.
Development of Ti-C-N coatings with improved tribological behavior and antibacterial properties
2016, Journal of the Mechanical Behavior of Biomedical MaterialsCorrosion performance and mechanical stability of 316L/DLC coating system: Role of interlayers
2010, Surface and Coatings TechnologyPlasma-Enhanced Chemical Vapor Deposition of Functional Coatings
2010, Handbook of Deposition Technologies for Films and CoatingsPlasma-Enhanced Chemical Vapor Deposition of Functional Coatings
2009, Handbook of Deposition Technologies for Films and Coatings: Science, Applications and TechnologyFormation and behavior of unbonded hydrogen in a-C:H of various compositions and densities
2009, Surface and Coatings TechnologyCitation Excerpt :At higher H contents most of C atoms adopt a network coordination of 2, corresponding to a cross-linked polymer-like structure reported experimentally at a H content > 35 at. % in Ref. [6] (see also Fig. 2c–e). Less changing network characteristics (not shown in Fig. 3) include average CC bond order of 1.3–1.5, and average coordination number of C atoms (including C–H bonds) of 2.8–3.1.
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