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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0449441 (2012-04-18) |
등록번호 | US-8679983 (2014-03-25) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 91 인용 특허 : 402 |
A method of suppressing the etch rate for exposed silicon-and-nitrogen-containing material on patterned heterogeneous structures is described and includes a two stage remote plasma etch. The etch selectivity of silicon relative to silicon nitride and other silicon-and-nitrogen-containing material is
A method of suppressing the etch rate for exposed silicon-and-nitrogen-containing material on patterned heterogeneous structures is described and includes a two stage remote plasma etch. The etch selectivity of silicon relative to silicon nitride and other silicon-and-nitrogen-containing material is increased using the method. The first stage of the remote plasma etch reacts plasma effluents with the patterned heterogeneous structures to form protective solid by-product on the silicon-and-nitrogen-containing material. The plasma effluents of the first stage are formed from a remote plasma of a combination of precursors, including nitrogen trifluoride and hydrogen (H2). The second stage of the remote plasma etch also reacts plasma effluents with the patterned heterogeneous structures to selectively remove material which lacks the protective solid by-product. The plasma effluents of the second stage are formed from a remote plasma of a fluorine-containing precursor.
1. A method of etching a patterned substrate in a substrate processing region of a substrate processing chamber, wherein the patterned substrate has an exposed silicon-and-nitrogen-containing region and exposed silicon, the method of etching the patterned substrate comprising sequential steps of: (1
1. A method of etching a patterned substrate in a substrate processing region of a substrate processing chamber, wherein the patterned substrate has an exposed silicon-and-nitrogen-containing region and exposed silicon, the method of etching the patterned substrate comprising sequential steps of: (1) a first dry etch stage comprising:flowing each of nitrogen trifluoride and hydrogen (H2) into a remote plasma region fluidly coupled to the substrate processing region while forming a first plasma in the plasma region to produce first plasma effluents, andforming protective solid by-product on the exposed silicon-and-nitrogen-containing region to form a protected silicon-and-nitrogen-containing region by flowing the first plasma effluents into the substrate processing region;(2) a second dry etch stage comprisingflowing a fluorine-containing precursor into the remote plasma region while forming a second plasma in the plasma region to produce second plasma effluents, andetching the exposed silicon faster than the protected silicon-and-nitrogen-containing region by flowing the second plasma effluents into the substrate processing region, wherein at least a portion of the previously formed solid by-product layer remains after the second dry etch stage; and(3) sublimating the protective solid by-product from the protected silicon-and-nitrogen-containing region by raising a temperature of the patterned substrate. 2. The method of etching the patterned substrate of claim 1 wherein the exposed silicon-and-nitrogen-containing region is silicon nitride. 3. The method of etching the patterned substrate of claim 1 wherein the exposed silicon-and-nitrogen-containing region consists essentially of silicon and nitrogen. 4. The method of etching the patterned substrate of claim 1 wherein the exposed silicon-and-nitrogen-containing region comprises atomic concentrations of about 30% or more silicon and about 30% or more nitrogen. 5. The method of etching the patterned substrate of claim 1 wherein a temperature of the patterned substrate is between about −20° C. and about 75° C. during each of the first dry etch stage and the second dry etch stage. 6. The method of etching the patterned substrate of claim 1 wherein a pressure within the substrate processing region is below or about 50 Torr and above or about 0.1 Torr during each of the first dry etch stage and the second dry etch stage. 7. The method of etching the patterned substrate of claim 1 wherein forming the first plasma in the plasma region and the second plasma in the plasma region comprises applying RF power between about 10 Watts and about 15000 Watts to the plasma region during each of the first dry etch stage and the second dry etch stage. 8. The method of etching the patterned substrate of claim 1 wherein the first plasma and the second plasma are both capacitively-coupled plasmas. 9. The method of etching the patterned substrate of claim 1 wherein the exposed silicon is single crystalline silicon or polysilicon. 10. The method of etching the patterned substrate of claim 1 wherein a selectivity of the method of etching the patterned substrate, exposed silicon:exposed silicon-and-nitrogen-containing region, is greater than or about 3:1. 11. The method of etching the patterned substrate of claim 1 wherein a selectivity of the method of etching the patterned substrate, exposed silicon:exposed silicon-and-nitrogen-containing region, is greater than or about 5:1. 12. The method of etching the patterned substrate of claim 1 wherein the substrate processing region is essentially plasma-free during each of the first dry etch stage and the second dry etch stage. 13. The method of etching the patterned substrate of claim 1 wherein the patterned substrate also has an exposed silicon-and-oxygen-containing region, the operation of forming protective solid by-product further comprises forming protective solid by-product on the exposed silicon-and-oxygen-containing region to form a protected silicon-and-oxygen-containing region, and the operation of etching the silicon faster than the protected silicon-and-nitrogen-containing region further comprises etching the silicon faster than the protected silicon-and-oxygen-containing region. 14. The method of etching the patterned substrate of claim 13 wherein a selectivity of the method of etching the patterned substrate, exposed silicon:exposed silicon-and-nitrogen-containing region, is greater than or about 20:1. 15. The method of etching the patterned substrate of claim 1 wherein the second fluorine-containing precursor and the second plasma effluents are essentially devoid of hydrogen. 16. The method of etching the patterned substrate of claim 1 wherein there is essentially no concentration of ionized species and free electrons within the substrate processing region during the second dry etch stage. 17. The method of etching the patterned substrate of claim 1 wherein the operation of sublimating the protective solid by-product from the protected silicon-and-nitrogen-containing region comprises raising a temperature of the patterned substrate above 90° C. 18. The method of etching the patterned substrate of claim 1 wherein the exposed silicon is essentially devoid of oxygen and nitrogen. 19. The method of etching the patterned substrate of claim 1, wherein the remote plasma region is separated from the processing region with a showerhead. 20. The method of etching the patterned substrate of claim 19, wherein the first and second plasma effluents are flowed into the processing region through the showerhead.
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