Cyclic etch process to remove dummy gate oxide layer for fin field effect transistor fabrication
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IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01L-029/66
H01L-021/311
H01L-021/3105
출원번호
US-0620806
(2017-06-12)
등록번호
US-10242882
(2019-03-26)
발명자
/ 주소
Bi, Zhenxing
Canaperi, Donald F.
Devarajan, Thamarai S.
Teehan, Sean
출원인 / 주소
International Business Machines Corporation
대리인 / 주소
Alexanian, Vazken
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
Methods are provided to implement a cyclic etch process to remove oxide layers for semiconductor device fabrication. For example, a method comprises performing a cyclic etch process to incrementally etch an oxide layer, wherein the cyclic etch process comprises sequentially performing at least two i
Methods are provided to implement a cyclic etch process to remove oxide layers for semiconductor device fabrication. For example, a method comprises performing a cyclic etch process to incrementally etch an oxide layer, wherein the cyclic etch process comprises sequentially performing at least two instances of an etch cycle. The etch cycle comprises performing an etch process to partially etch a portion of the oxide layer using an etch chemistry and environment which is configured to etch down the oxide layer at an etch rate of about 25 angstroms/minute or less, and performing a thermal treatment to remove by-products of the etch process. The cyclic etch process can be implemented as part of a replacement metal gate process to remove a dummy gate oxide layer of a dummy gate structure as part of, e.g., a FinFET semiconductor fabrication process flow.
대표청구항▼
1. A method for fabricating a semiconductor device, comprising: performing a cyclic etch process to incrementally etch an oxide layer, wherein the cyclic etch process comprises sequentially performing at least two instances of an etch cycle, wherein the etch cycle comprises: performing an etch proce
1. A method for fabricating a semiconductor device, comprising: performing a cyclic etch process to incrementally etch an oxide layer, wherein the cyclic etch process comprises sequentially performing at least two instances of an etch cycle, wherein the etch cycle comprises: performing an etch process to partially etch a portion of the oxide layer using an etch chemistry and environment which is configured to etch down the oxide layer at an etch rate of about 25 angstroms/minute or less, wherein the etch chemistry and environment comprises a reaction pas and a carrier gas, wherein the reaction gas is flowed into a chamber for the etch process at a flow rate of about 30 sccm (standard cubic centimeter per minute) to about 50 sccm, and wherein the carrier gas is flowed into the chamber at a flow rate of about 100 sccm to about 1000 sccm, and wherein the chamber is maintained at a pressure of about 30 mTorr to about 50 mTorr; andperforming a thermal treatment to remove by-products of the etch process. 2. The method of claim 1, wherein a ratio of the carrier gas to reaction gas is about 20:1 or greater. 3. The method of claim 1, wherein the reaction gas comprises hydrogen fluoride (HF) and wherein the carrier gas comprises Argon (Ar). 4. The method of claim 1, wherein the reaction gas comprises a mixture of hydrogen fluoride (HF) and ammonia (NH3), and wherein the carrier gas comprises a mixture of Argon (Ar) nitrogen (N2). 5. The method of claim 1, wherein performing a thermal treatment to remove by-products of the etch process comprises: maintaining a thermal anneal temperature within a chamber in range of about 150° C. to about 200° C.;flowing a thermal anneal gas into the chamber at a flow rate of about 1000 sccm to about 2000 sccm;maintaining a pressure within the chamber at a pressure of abut 1000 mTorr, andperforming the thermal treatment for a period of time which is sufficient to evaporate the by-products of the etch process. 6. The method of claim 1, wherein the etch chemistry and environment is configured to etch the oxide layer selective to nitride material with an etch selectivity of no less than about 100:1. 7. The method of claim 1, wherein the etch chemistry and environment is configured to etch the oxide layer selective to epitaxial semiconductor material with an etch selectivity of no less than about 25:1. 8. The method of claim 1, wherein the etch chemistry and environment is configured to etch the oxide layer selective to dielectric material of an interlevel dielectric (ILD) layer with an etch selectivity of no less than about 2:1. 9. A method for fabricating a semiconductor device, comprising: forming a dummy gate structure over a portion of a vertical semiconductor fin of a FinFET (field effect transistor) device, wherein the dummy gate structure comprises a dummy gate oxide layer formed on vertical semiconductor fin, and a dummy gate electrode layer formed on the dummy gate oxide layer; andperforming a RMG (replacement metal gate) process which comprises removing the dummy gate structure, and forming a metallic gate structure in place of the dummy gate structure;wherein removing the dummy gate structure comprises etching away the dummy gate electrode layer, and etching away the dummy gate oxide layer using a cyclic etch process to incrementally etch the dummy gate oxide layer, wherein the cyclic etch process comprises sequentially performing at least two instances of an etch cycle, wherein the etch cycle comprises: performing an etch process to partially etch a portion of the dummy gate oxide layer using an etch chemistry and environment which is configured to etch down the dummy gate oxide layer at an etch rate of about 25 angstroms/minute or less, wherein the etch chemistry and environment comprises a reaction gas and a carrier gas, wherein the reaction gas is flowed into a chamber for the etch process at a flow rate of about 30 sccm (standard cubic centimeter per minute) to about 50 sccm, and wherein the carrier gas is flowed into the chamber at a flow rate of about 100 sccm to about 1000 sccm, and wherein the chamber is maintained at a pressure of about 30 mTorr to about 50 mTorr; andperforming a thermal treatment to remove by-products of the etch process. 10. The method of claim 9, wherein a ratio of the carrier gas to reaction gas is about 20:1 or greater. 11. The method of claim 9, wherein the reaction gas comprises hydrogen fluoride (HF) and wherein the carrier gas comprises Argon (Ar). 12. The method of claim 9, wherein the reaction gas comprises a mixture of hydrogen fluoride (HF) and ammonia (NH3) and wherein the carrier gas comprises a mixture of Argon (Ar) nitrogen (N2). 13. The method of claim 9, wherein performing a thermal treatment to remove by-products of the etch process comprises: maintaining a thermal anneal temperature within a chamber in range of about 150° C. to about 200° C.;flowing a thermal anneal gas into the chamber at a flow rate of about 1000 sccm to about 2000 sccm;maintaining a pressure within the chamber at a pressure of about 1000 mTorr; andperforming the thermal treatment for a period of time which is sufficient to evaporate the by-products of the etch process. 14. The method of claim 9, wherein the etch chemistry and environment is configured to etch the oxide layer selective to nitride material with an etch selectivity of no less than about 100:1. 15. The method of claim 9, wherein the etch chemistry and environment is configured to etch the dummy gate oxide layer selective to epitaxial semiconductor material of the vertical semiconductor fin with an etch selectivity of no less than about 25:1. 16. The method of claim 9, wherein the etch chemistry and environment is configured to etch the dummy gate oxide layer selective to dielectric material of an interlevel dielectric (ILD) layer with an etch selectivity of no less than about 2:1.
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