IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0087662
(2002-03-01)
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발명자
/ 주소 |
- Hartig, Klaus
- Krisko, Annette J.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
26 인용 특허 :
79 |
초록
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The invention provides thin film coatings that have a transparent base layer. For example, the invention provides low-emissivity coatings with a transparent base layer. In certain embodiments, a silicon dioxide base layer is used. Methods of producing thin film coatings having a transparent base lay
The invention provides thin film coatings that have a transparent base layer. For example, the invention provides low-emissivity coatings with a transparent base layer. In certain embodiments, a silicon dioxide base layer is used. Methods of producing thin film coatings having a transparent base layer are provided as well. In one embodiment, sputter deposition is utilized to produce these coatings.
대표청구항
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1. A substrate bearing a low-emissivity coating, the low-emissivity coating comprising, moving outwardly from the substrate:a) a first film layer comprising silicon dioxide formed directly upon the substrate at a thickness of less than 100 angstroms; b) a second film layer comprising a transparent d
1. A substrate bearing a low-emissivity coating, the low-emissivity coating comprising, moving outwardly from the substrate:a) a first film layer comprising silicon dioxide formed directly upon the substrate at a thickness of less than 100 angstroms; b) a second film layer comprising a transparent dielectric material; c) a third film layer comprising an infrared-reflective material; and d) a fourth film layer comprising a transparent dielectric material. 2. The substrate of claim 1 wherein the first film layer comprising silicon dioxide has a thickness of less than about 90 angstroms.3. The substrate of claim 2 wherein the first film layer comprising silicon dioxide has a thickness of between about 50 angstroms and about 90 angstroms.4. The substrate of claim 3 wherein the first film layer comprising silicon dioxide has a thickness of about 75 angstroms.5. The substrate of claim 1 wherein the second film layer comprises silicon nitride.6. The substrate of claim 5 wherein the second film layer comprising silicon nitride is formed directly upon the first film layer comprising silicon dioxide.7. The substrate of claim 1 wherein the second film layer comprises zinc oxide.8. The substrate of claim 7 wherein the third film layer is formed directly upon the second film layer comprising zinc oxide and said infrared-reflective material is silver.9. The substrate of claim 1 further comprising a protective film layer positioned between the third and fourth film layers, the protective film layer being formed directly upon the third film layer.10. The substrate of claim 9 wherein the protective film layer comprises a material selected from the group consisting of niobium, titanium, nickel, and chromium.11. The substrate of claim 1 wherein the fourth film layer comprises zinc oxide.12. The substrate of claim 1 wherein the fourth film layer comprises silicon nitride.13. The substrate of claim 1 further comprising a titanium nitride film layer further from the substrate than the fourth film layer.14. The substrate of claim 1 further comprising a chemically durable film layer further from the substrate than the fourth film layer, the chemically durable film layer comprising silicon nitride.15. The substrate of claim 1 further comprising a titanium nitride film layer and a chemically durable film layer, both being further from the substrate than the fourth film layer, wherein the chemically durable film layer comprises silicon nitride.16. The substrate of claim 1 further comprising:a) a fifth film layer comprising an infrared-reflective material; and b) a sixth film layer comprising a transparent dielectric material. 17. The substrate of claim 16 wherein said infrared-reflective material is silver.18. The substrate of claim 17 wherein the fifth film layer is formed directly upon the fourth film layer and the fourth film layer comprises zinc oxide.19. The substrate of claim 16 further comprising a protective film layer positioned between the fifth and sixth film layers, the protective film layer being formed directly upon the fifth film layer.20. The substrate of claim 19 wherein the protective film layer comprises a material selected from the group consisting of niobium, titanium, nickel, and chromium.21. A substrate bearing a silver-based low-emissivity coating, the low-emissivity coating including a first film layer comprising silicon dioxide formed directly upon the substrate at a thickness of less than 100 angstroms, the coating further including at least one infrared-reflective silver-containing film layer.22. The substrate of claim 21 wherein the silver-based low-emissivity coating includes at least two infrared-reflective silver-containing film layers.23. A substrate bearing a low-emissivity coating, the low-emissivity coating comprising, moving outwardly from the substrate:a) a first film layer comprising silicon dioxide formed directly on the substrate; the first film layer having a thickness of less than 100 angstroms; b) a second film layer comprising a transparent dielectric material; c) a third film layer comprising an infrared-reflective material; d) an intermediate film region comprising at least three film layers; e) a seventh film layer comprising an infrared-reflective material; and f) an eighth film layer comprising a transparent dielectric material. 24. The substrate of claim 23 further comprising a protective film layer positioned between the third film layer and the intermediate film region, the protective film layer being formed directly upon the third film layer.25. The substrate of claim 24 wherein the protective film layer comprises a material selected from the group comprising niobium, titanium, nickel, and chromium.26. The substrate of claim 23 wherein the intermediate film region includes at least one substantially amorphous film layer.27. The substrate of claim 26 wherein said substantially amorphous film layer is silicon nitride.28. The substrate of claim 23 wherein each of said three film layers in the intermediate film region has a physical thickness of no more than about 250Å.29. The substrate of claim 23 wherein each of said three film layers in the intermediate film region is formed of a different material than each film layer contiguous thereto.30. The substrate of claim 23 wherein said three film layers in the intermediate film region are formed respectively of a zinc oxide, a silicon nitride, and a zinc oxide.31. The substrate of claim 30 wherein said silicon nitride film layer is positioned between said zinc oxide film layers.32. The substrate of claim 23 wherein the intermediate film region comprises at least five film layers.33. The substrate of claim 32 wherein the intermediate film region comprises alternating film layers of zinc oxide and silicon nitride.34. The substrate of claim 33 wherein the intermediate film region comprises three zinc oxide film layers and two silicon nitride film layers.35. The substrate of claim 23 wherein the first film layer comprising silicon dioxide has a thickness of between about 50 angstroms and about 90 angstroms.36. A substrate bearing a low-emissivity coating, the low-emissivity coating comprising, moving outwardly from the substrate:a) a first film layer comprising silicon dioxide formed directly upon the substrate; first film layer having a thickness of less than 100 angstroms; b) a second film layer comprising a transparent dielectric material; c) a third film layer comprising an infrared-reflective material; d) a fourth, protective film layer formed directly upon the third film layer, the fourth, protective film layer being a niobium-containing film layer; and e) a fifth film layer comprising a transparent dielectric material. 37. The substrate of claim 36 further comprising:a) a sixth film layer comprising an infrared-reflective material; b) a seventh, protective film layer formed directly upon the sixth film layer, the seventh, protective film layer being a niobium-containing film layer; and c) an eight film layer comprising a transparent dielectric material. 38. A substrate bearing a low-emissivity coating, the low-emissivity coating comprising, moving outwardly from the substrate:a) a first film layer comprising silicon dioxide formed directly upon the substrate at a thickness of less than 100 angstroms; b) a second film layer comprising an oxide of zinc and tin; c) a third film layer comprising an oxide of zinc; d) a fourth film layer comprising an infrared-reflective material; e) a protective fifth film layer formed directly upon the fourth film layer; f) a sixth film layer comprising an oxide of zinc; g) a seventh film layer comprising an oxide of zinc and tin; h) an eighth film layer comprising an oxide of zinc; i) a ninth film layer comprising an infrared-reflective material; j) a protective tenth film layer formed directly upon the ninth film layer; k) an eleventh film layer comprising an oxide of zinc; l) a twelfth film layer comprising an oxide of zinc and tin; and m) a thirteenth film layer comprising silicon nitride. 39. A substrate bearing a low-emissivity coating, the low-emissivity coating comprising, moving outwardly from the substrate:a) a first film layer comprising silicon dioxide formed directly upon the substrate at a thickness of less than 100 angstroms; b) a second film layer comprising titanium oxide or silicon nitride; c) a third film layer comprising an oxide of zinc; d) a fourth film layer comprising an infrared-reflective material; e) a protective fifth film layer formed directly upon the fourth film layer; f) a sixth film layer comprising silicon nitride; g) a seventh film layer comprising an oxide of zinc; h) an eighth film layer comprising an infrared-reflective material; j) a protective ninth film layer formed directly upon the eighth film layer; and k) a tenth film layer comprising silicon nitride. 40. A substrate bearing a low-emissivity coating, the low-emissivity coating comprising, moving outwardly from the substrate:a) a first film layer comprising silicon dioxide formed directly on the substrate, the first film layer being a sputtered amorphous layer having a thickness of less than 100 angstroms; b) a second film layer comprising a transparent dielectric material having a thickness of less than about 250 angstroms; c) a third film layer comprising an infrared-reflective material; d) an intermediate film region comprising at least three film layers; e) a seventh film layer comprising an infrared-reflective material; and f) an eighth film layer comprising a transparent dielectric material. 41. The substrate of claim 40 wherein the intermediate film region comprises at least five intermediate film layers.42. A substrate bearing a low-emissivity coating, the low-emissivity coating comprising, moving outwardly from the substrate:a) a first film layer comprising silicon dioxide formed directly upon the substrate at a thickness of less than 100 angstroms; b) a second film layer comprising a film of an oxide of zinc over a film of an alloy or mixture of zinc oxide selected from the group consisting of an alloy or mixture of zinc oxide and bismuth oxide, an alloy or mixture of zinc oxide and tin oxide, and an alloy or mixture of zinc oxide and indium oxide; c) a third film layer comprising an infrared-reflective material comprising silver; d) a fourth film layer comprising a transparent dielectric material; e) a fifth film layer comprising an infrared-reflective material; and f) a sixth film layer comprising a transparent dielectric material. 43. The substrate of claim 42 wherein the first film layer comprising silicon dioxide being a sputtered amorphous layer.44. The substrate of claim 42 wherein the third film layer comprises silver at a thickness of between about 58 angstroms and about 90 angstroms.45. A substrate bearing a low-emissivity coating, the low-emissivity coating comprising, moving outwardly from the substrate:a) a first film layer comprising silicon dioxide formed directly on the substrate, the first film layer having a thickness of less than 100 angstroms; b) a second film layer comprising a transparent dielectric material; c) a third film layer comprising an infrared-reflective material; d) an intermediate film region comprising at least three film layers, each intermediate film region layer having a physical thickness of less than 200 angstroms; e) a seventh film layer comprising an infrared-reflective material; and an eighth film layer comprising a transparent dielectric material. 46. The substrate of claim 45 wherein at least one of the intermediate film region layers comprises silicon nitride.47. A substrate bearing a low-emissivity coating, the low-emissivity coating comprising, moving outwardly from the substrate:a) a first film layer comprising silicon dioxide formed directly on the substrate, the first film layer having a thickness of less than 100 angstroms; b) a second film layer comprising a transparent dielectric material; c) a third film layer comprising an infrared-reflective material; d) an intermediate film region comprising two or more silicon nitride films separated from one another by a film of a material other than silicon nitride, wherein each of the silicon nitride films has a thickness of less than about 200 angstroms; e) a seventh film layer comprising an infrared-reflective material; and f) an eighth film layer comprising a transparent dielectric material. 48. The substrate of claim 47 wherein the silicon nitride films are separated from one another by one or more oxide layers.49. A substrate bearing a low-emissivity coating, the low-emissivity coating comprising, moving outwardly from the substrate:a) a first film layer comprising silicon dioxide formed directly upon the substrate at a thickness of less than 100 angstroms; b) a second film layer comprising a transparent dielectric material; c) a third film layer comprising an infrared-reflective material; d) a fourth film layer comprising a transparent dielectric material; e) a fifth film layer comprising an infrared-reflective material; and f) an outer film region formed of a plurality of separate layers including a first outer layer and a second outer layer deposited directly upon the first outer layer wherein the second outer layer is formed of silicon nitride. 50. The substrate of claim 49 wherein the second outer layer of silicon nitride has a thickness of between about 25 angstroms and about 300 angstroms.
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