초록 ▼

A method and article of manufacture of amorphous diamond-like carbon. The method involves providing a substrate in a chamber, providing a mixture of a carbon containing gas and hydrogen gas with the mixture adjusted such that the atomic molar ratio of carbon to hydrogen is less than 0.3, including a

A method and article of manufacture of amorphous diamond-like carbon. The method involves providing a substrate in a chamber, providing a mixture of a carbon containing gas and hydrogen gas with the mixture adjusted such that the atomic molar ratio of carbon to hydrogen is less than 0.3, including all carbon atoms and all hydrogen atoms in the mixture. A plasma is formed of the mixture and the amorphous diamond-like carbon film is deposited on the substrate. To achieve optimum bonding an intervening bonding layer, such as Si or SiO2,can be formed from SiH4with or without oxidation of the layer formed.

대표청구항 ▼

1. A structurally amorphous, low friction coating, comprising: a film comprised of carbon and hydrogen, wherein the film has a coefficient of friction from 0.001 to 0.007 and the coefficient of friction is measured in a substantially clean nitrogen environment. 2. The structurally amorphous, low fri

1. A structurally amorphous, low friction coating, comprising: a film comprised of carbon and hydrogen, wherein the film has a coefficient of friction from 0.001 to 0.007 and the coefficient of friction is measured in a substantially clean nitrogen environment. 2. The structurally amorphous, low friction coating of claim 1, further wherein the film has a wear rate from about 10-10to 5×10-11cubic millimeters per Newton meter and the wear rate is measured in a dry, inert environment. 3. The structurally amorphous, low friction coating of claim 1, wherein the film is deposited on a substrate and the substrate is comprised of metal, ceramic, polymer, plastic, sapphire or a semiconductor. 4. The structurally amorphous, low friction coating of claim 3, wherein the film is deposited on the substrate by ion-beam deposition, DC sputtering, RF sputtering, arc-plasma deposition, plasma enhanced chemical vapor deposition, or laser ablation. 5. The structurally amorphous, low friction coating of claim 1, wherein the film is deposited on a bonding layer and the bonding layer is comprised of silicon. 6. The structurally amorphous, low friction coating of claim 5 wherein the bonding layer is 50 to 70 nm thick. 7. The structurally amorphous, low friction coating of claim 1, wherein the film is deposited on a bonding layer comprised of SiO2,chromium oxide or titanium oxide. 8. The structurally amorphous, low friction coating of claim 1, wherein the film is about 1-2 or 4 micrometers thick. 9. The structurally amorphous, low friction coating of claim 1, wherein the film comprises about 30 to 40 mole percent hydrogen. 10. An article of manufacture, comprising: (a) a substrate comprised of metal, ceramic, polymer, plastic, sapphire or a semiconductor; (b) a bonding layer comprised of silicon, titanium oxide or chromium oxide deposited on the substrate; and (c) a film comprised of carbon and hydrogen deposited on the bonding layer, wherein the film has a coefficient of friction from 0.001 to 0.007 and the coefficient of friction is measured in a substantially clean nitrogen environment. 11. The article of manufacture of claim 10, further wherein the film has a wear rate from about 10-10to 5×10-11cubic millimeters per Newton meter and the wear rate is measured in a dry, inert environment. 12. The article of manufacture of claim 10 wherein the bonding layer is 50 to 70 nm thick. 13. The article of manufacture of claim 10, wherein the film is about 1-2 or 4 micrometers thick. 14. The article of manufacture of claim 10, wherein the film comprises about 30 to 40 mole percent hydrogen. 15. The article of manufacture of claim 10, wherein the film is deposited on the substrate by ion-beam deposition, DC sputtering, RF sputtering, arc-plasma deposition, plasma enhanced chemical vapor deposition, or laser ablation. 16. A structurally amorphous, low friction coating, comprising: a film consisting essentially of carbon and hydrogen, wherein the film has a coefficient of friction from 0.001 to 0.007 and the coefficient of friction is measured in a substantially clean nitrogen environment.