Diamond-like-carbon films

Figure S ERS and RBS spectra for a 1000-A sputtar-deposKed diamond-like carbon film on Si. Both spectra are required for complete analysis.

Erdemir, A., EryUmaz, O. L., and Fenske, G., Synthesis of Diamond-like Carbon Films with Superlow Friction and Wear Properties,"/. Vac. Sci. Technol. A, Vol. 18, 2000, pp. 1987-1992. 

Erdemir, A., The Role of Hydrogen in Tribological Properties of Diamond-Like Carbon Films," Surf. Coat. Technol., Vol. 146/147,2001, pp. 292-297. 

Figure 8. HREELS spectra of the nanocrystalline diamond and diamond-like carbon films with various [CH4]/[CO]. (a) [CH4]/[CO] = 4.5.0/0. (b) [CH4MCO] = 4.5/1.0. (c) [CH4]/[CO] = 4.5/10 seem. The elastic peak for (c), reduced by a factor of 25, is shown for comparison. Reprinted with permission from [66], K. Okada et al.. Diamond Relat. Mater. 10, 1991 (2001). 2001, Elsevier Science.

Since the main parameter influencing diamond-like carbon film structure is the energy of bombarding ions, it is expected that the same happens with a-C H films. In fact, it was found that in RFPECVD deposition of a-C H films, the variation of substrate self-bias results in strong changes of film growth, composition, structure, and properties. 

H. Nakazawa, A. Sudoh, M. Suemitsu, K. Yasui, T. ltoh,T. Endoh, Y. Narita, M. Mashita, Mechanical and tribological properties of boron, nitrogen-coincorporated diamond-like carbon films prepared by reactive radio-frequency magnetron sputtering., Diamond and Related Materials, vol. 19, pp. 503-506, 2010. 

PECVD of fluorinated diamond-like carbon films (hydrogenated amorphous films)... 

T.R. Anthony, Proceedings of Workshop on Diamond and Diamond like Carbon Films, F.A. Nichols and D.K. Moores, eds., Argonne National Laboratory, Argonne, IL, ANL-Conf-9202262,1992, pp. 117-164. 

Franta, D. Ohlidal, I. Bursikova, V. Zajickova, L. Optical properties of diamond-like carbon films containing SiOx. Diamond Relat. Mater. 2003, 12, 1532-1538. 

Bewilogua, I<. and Hofmann, D. (2014) History of diamond-like carbon films - From first experiments to worldwide applications. Surf. Coat. Technol, 242, 214-225. 

H., Hasabe, T., and Suzuki, T. (2006) Diamond-like carbon films for PET bottles and medical applications. Thin Solid Films, 494 (1-2), 84-91. 

Q.F. Huang, S.F. Yoon, Rush, Q. Zhang and J. Ahn, Dielectric Properties of Molybdenum-containing Diamond-like Carbon Films Deposited Using Electron Cyclotron Resonance Chemical Vapor Deposition, Thin Solid Films, 409, 211-219 (2002). 

Creasy and Brenna ° continued their previous work by examining a copolymer of ethylene and tetrafluoroethylene (ETFE), polyphenylene sulfide (EPS), and a diamond-like carbon film (DEC). Ablation of these samples gave comparison information on the formation of fullerenes in the presence of H, S, and F atoms. In the case of ETFE, a large Cso peak was observed in the spectra, which showed a strong dependence on the number of laser pulses and laser power density. 

Microwear tests performed using atomic force microscopy (AFM) were reported by Miyake et al. [74] and by Schiitze [55]. The result was that the wear caused by a diamond tip is much greater for hBN than for cBN. The microwear rates of sputter deposited cBN films were found to be nearly the same as that of hard diamond like carbon films [55]. 

Preparation Methods for Diamond-like Carbon Films... 

---