Copper diffusion barrier films having low dielectric constants are suitable for a variety of copper/inter-metal dielectric integration schemes. Copper diffusion barrier films in accordance with the invention are composed of one or more layers of silicon carbide, at least one of the silicon carbide l
Copper diffusion barrier films having low dielectric constants are suitable for a variety of copper/inter-metal dielectric integration schemes. Copper diffusion barrier films in accordance with the invention are composed of one or more layers of silicon carbide, at least one of the silicon carbide layers having a composition of at least 40% carbon (C), for example, between about 45 and 60% carbon (C). The films' high carbon-content layer will have a composition wherein the ratio of C to Si is greater than 2:1; or >3:1; or >4:1; or >5.1. The high carbon-content copper diffusion barrier films have a reduced effective k relative to conventional barrier materials.
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It is claimed: 1. A copper diffusion barrier film, for use in a semiconductor device, the copper diffusion barrier film comprising: at least one layer of undoped carbon-rich silicon carbide, the layer having a composition of at least 40 atomic % carbon (C) and a dielectric constant of less than abo
It is claimed: 1. A copper diffusion barrier film, for use in a semiconductor device, the copper diffusion barrier film comprising: at least one layer of undoped carbon-rich silicon carbide, the layer having a composition of at least 40 atomic % carbon (C) and a dielectric constant of less than about 4, wherein the layer is a reaction product of a plasma reaction of one or more silicon carbide precursors, wherein at least one precursor is selected from the group consisting of ethynyltrimethylsilane, tri-isopropylsilane, 3-(trimethylsilyl)cyclopentene, and vinyldimethylsilane; and one or more additional layers of silicon carbide forming a stack, wherein at least one of the additional layers has a dielectric constant higher than the dielectric constant of the carbon-rich silicon carbide, wherein the diffusion barrier film has an effective dielectric constant of less than about 4.5. 2. The copper diffusion barrier film of claim 1, wherein the film has an effective dielectric constant of less than about 4.0. 3. The copper diffusion barrier film of claim 1, wherein the film has a thickness from about 20 to 2000 Å. 4. The copper diffusion barrier film of claim 1, wherein the film has a thickness of about 500 Å. 5. The copper diffusion barrier film of claim 1, wherein the layer of undoped carbon-rich silicon carbide resides in contact with a copper line. 6. The copper diffusion barrier of claim 1, wherein the carbon-rich silicon carbide has a C to Si ratio of greater than 4:1. 7. The copper diffusion barrier film of claim 1, wherein the undoped carbon-rich silicon carbide layer contacts a copper line, and wherein the film comprises an oxygen doped silicon carbide layer stacked upon the carbon-rich silicon carbide layer. 8. The copper diffusion barrier film of claim 1, comprising a layer of nitrogen-doped silicon carbide contacting a copper line, wherein the layer of undoped carbon-rich silicon carbide is stacked upon the layer of nitrogen-doped silicon carbide. 9. The copper diffusion barrier film of claim 1, wherein the undoped carbon-rich silicon carbide layer contacts a copper line, and wherein the film comprises a nitrogen-doped silicon carbide layer stacked upon the carbon-rich silicon carbide layer. 10. A copper diffusion barrier film, for use in a semiconductor device, the copper diffusion barrier film comprising: at least one layer of doped carbon-rich silicon carbide, the layer having a composition of at least 40% atomic carbon (C) and a dielectric constant of less than about 4, wherein the layer is a reaction product of a plasma reaction of one or more silicon carbide precursors, wherein at least one precursor is selected from the group consisting of ethynyltrimethylsilane, tri-isopropylsilane, 3-(trimethylsilyl)cyclopentene, and vinyldimethylsilane; and one or more additional layers of silicon carbide forming a stack, wherein at least one of the additional layers has a dielectric constant higher than the dielectric constant of the carbon-rich silicon carbide, wherein the diffusion barrier film has an effective dielectric constant of less than about 4.5. 11. A copper diffusion barrier film, for use in a semiconductor device, the copper diffusion barrier film comprising: at least one layer of carbon-rich silicon carbide, the layer having a composition of at least 40 atomic % carbon (C) and a dielectric constant of less than about 4, wherein the layer is a reaction product of a plasma reaction of one or more silicon carbide precursors, wherein at least one precursor is selected from the group consisting of ethynyltrimethylsilane, tri-isopropylsilane, 3-(trimethylsilyl)cyclopentene, and vinyldimethylsilane. 12. A copper diffusion barrier film, for use in a semiconductor device, the copper diffusion barrier film comprising: at least one layer of undoped carbon-rich silicon carbide, the layer having a composition of at least 40 atomic % carbon (C) and a dielectric constant of less than about 4; and one or more additional layers of silicon carbide forming a stack, wherein at least one of the additional layers has a dielectric constant higher than the dielectric constant of the carbon-rich silicon carbide, wherein the diffusion barrier film has an effective dielectric constant of less than about 4.5, wherein the undoped carbon-rich silicon carbide layer contacts a copper line, and wherein the film comprises an oxygen-doped silicon carbide layer or a nitrogen-doped silicon carbide layer stacked upon the carbon-rich silicon carbide layer. 13. The copper diffusion barrier film of claim 12, wherein the undoped carbon-rich silicon carbide layer contacts a copper line, and wherein the film comprises an oxygen doped silicon carbide layer stacked upon the carbon-rich silicon carbide layer. 14. The copper diffusion barrier film of claim 12, wherein the undoped carbon-rich silicon carbide layer contacts a copper line, and wherein the film comprises a nitrogen-doped silicon carbide layer stacked upon the carbon-rich silicon carbide layer.
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