Claims
- 1. A method for residue-free etching of a non-planar stepped topography of a layer of refractory metal silicide selected from molybdenum silicide and tungsten silicide formed on a layer of polysilicon on silicon oxide, comprising:
- supplying RF electrical energy between a pair of electrodes in a chamber, one of which electrodes supports a masked, non-planar stepped composite comprising an organic mask over silicide selected from molybdenum silicide and tungsten silicide over polysilicon over silicon oxide; and
- communicating into said chamber a reactive gas mixture comprising principally a mixture of chlorine and BCl.sub.3 along with HCl and a small amount of dopant gas, not exceeding twenty volume percent of the total gas flow, selected from the group consisting of fluorine-containing gas, oxygen, and a mixture of fluorine-containing gas and oxygen, for etching the silicide anisotropically with a high selectivity to the organic mask for preserving the mask, and with a silicide to polysilicon selectivity of at least about 2/1.
- 2. The method for etching refractory metal silicide set forth in claim 1, wherein said reactive gas mixture supplied to said chamber comprises relative gas flow ratios of about (40-75): (80-40):(60-40) HCl:BCl.sub.3 :chlorine.
- 3. The method for etching refractory metal silicide set forth in claim 2, wherein said reactive gas mixture comprises HCl:BCl.sub.3 :chlorine:(a fluorine-containing gas selected from NF.sub.3 and CF.sub.4) in a volumetric ratio of about 75:40:40:20.
- 4. The method for etching refractory metal silicide set forth in claim 2, wherein the metal silicide is molybdenum silicide and wherein said reactive gas mixture comprises HCl:BCl.sub.3 :chlorine:oxygen in a flow rate of about 75:40:40:(4-10).
- 5. The method for etching refractory metal silicide of claim 1, wherein the fluorine-containing gas is selected from the group consisting of CF.sub.4 and NF.sub.3.
- 6. The method for etching refractory metal silicide set forth in claim 1, wherein the dopant gas is a mixture of oxygen and CF.sub.4 containing at least about 90 percent by volume CF.sub.4.
- 7. The method for etching refractory metal silicide set forth in claim 1, wherein the refractory metal silicide is tungsten silicide and the dopant gas is NF.sub.3.
- 8. The method for etching refractory metal silicide set forth in claim 1, wherein the refractory metal silicide is tungsten silicide and the dopant gas is CF.sub.4.
- 9. The method for etching refractory metal silicide set forth in claim 1, wherein the refractory metal silicide is molybdenum silicide and the dopant gas is oxygen.
- 10. The method of claim 1 for anistropically etching refractory metal silicide, further comprising, after the silicide etch step, the step of communicating into said chamber HCl and chlorine for anisotropically etching the polysilicon underlayer selectively with respect to the silicon oxide.
- 11. A method for residue-free etching of a non-planar stepped topography of a layer of refractory metal silicide selected from titanium silicide and tantalum silicide formed on a layer of polysilicon on silicon oxide, comprising:
- supplying RF electrical energy between a pair of electrodes in a chamber, one of which electrodes supports a masked, non-planar stepped composite comprising an organic mask over silicide selected from titanium silicide and tantalum silicide over polysilicon over silicon oxide; and
- communicating into said chamber a reactive gas mixture comprising principally a mixture of chlorine and BCl.sub.3 along with HCl for etching the silicide anisotropically with a high selectivity to the organic mask for preserving the mask, and with a silicide to polysilicon selectivity of at least about 2/1.
- 12. The method of claim 11 for anistropically etching refractory metal silicide, further comprising, after the silicide etch step, the step of communicating into said chamber HCl and chlorine for anisotropically etching the polysilicon underlayer selectively with respect to the silicon oxide.
Parent Case Info
This is a continuation of application Ser. No. 185,256, filed Apr. 19, 1988, now abandoned, which is a continuation of application Ser. No. 786,783, filed Oct. 11, 1985, now abandoned.
US Referenced Citations (6)
Non-Patent Literature Citations (1)
Entry |
Light et al., "Pattern of Tantalum Polycide Films", Journal of the Electrochemical Society, 2/84, pp. 459-461. |
Continuations (2)
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Number |
Date |
Country |
Parent |
185256 |
Apr 1988 |
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Parent |
786783 |
Oct 1985 |
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