IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0851514
(2004-05-21)
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등록번호 |
US-8323754
(2012-12-04)
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발명자
/ 주소 |
- Olsen, Christopher
- Narwankar, Pravin K.
- Kher, Shreyas S.
- Thakur, Randhir
- Muthukrishnan, Shankar
- Kraus, Philip A.
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출원인 / 주소 |
|
대리인 / 주소 |
Patterson & Sheridan, LLP
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인용정보 |
피인용 횟수 :
5 인용 특허 :
159 |
초록
▼
In one embodiment, a method for forming a dielectric stack on a substrate is provided which includes depositing a first layer of a dielectric material on a substrate surface, exposing the first layer to a nitridation process, depositing a second layer of the dielectric material on the first layer, e
In one embodiment, a method for forming a dielectric stack on a substrate is provided which includes depositing a first layer of a dielectric material on a substrate surface, exposing the first layer to a nitridation process, depositing a second layer of the dielectric material on the first layer, exposing the second layer to the nitridation process, and exposing the substrate to an anneal process. In another embodiment, a method for forming a dielectric material on a substrate is provided which includes depositing a metal oxide layer substantially free of silicon on a substrate surface, exposing the metal oxide layer to a nitridation process, and exposing the substrate to an anneal process.
대표청구항
▼
1. A method for forming a dielectric stack on a substrate, comprising: depositing a first dielectric layer of hafnium silicate on a substrate by an atomic layer deposition process, wherein the substrate is exposed to precursors of an alkylamino hafnium compound, water vapor, and an alkylamino silane
1. A method for forming a dielectric stack on a substrate, comprising: depositing a first dielectric layer of hafnium silicate on a substrate by an atomic layer deposition process, wherein the substrate is exposed to precursors of an alkylamino hafnium compound, water vapor, and an alkylamino silane compound during the atomic layer deposition process;exposing the first dielectric layer to a plasma nitridation process to form a first nitride layer comprising a nitrogen concentration within a range from about 5 at % to about 25 at %;depositing a second dielectric layer on the first nitride layer, wherein the second dielectric layer comprises a material selected from the group consisting of hafnium silicate, zirconium silicate, aluminum silicate, derivatives thereof, and combinations thereof;exposing the second dielectric layer to the plasma nitridation process to form a second nitride layer comprising a nitrogen concentration within a range from about 5 at % to about 25 at %; andexposing the substrate to an annealing process, wherein the depositing the first dielectric layer of hafnium silicate further comprises co-flowing the alkylamino hafnium compound and the alkylamino silane compound in a first half reaction and sequentially pulsing the water vapor in a second half reaction, with each half reaction separated by an argon purge. 2. A method for forming a dielectric stack on a substrate, comprising: a) depositing a dielectric layer having a thickness within a range from about 5 Å to about 50 Å on a substrate by an atomic layer deposition process, wherein the dielectric layer comprises a dielectric material consisting of hafnium silicate from precursors of an alkylamino hafnium compound, water vapor, and an alkylamino silane compound;b) exposing the dielectric layer to a plasma nitridation process to form a nitride layer thereon, wherein the dielectric layer comprises a nitrogen concentration within a range from about 5 at % to about 25 at %;c) optionally exposing the substrate to an annealing process; andd) repeating a process cycle of at least a)-b) to form the dielectric stack, wherein the depositing the dielectric layer further comprises co-flowing the alkylamino hafnium compound and the alkylamino silane compound in a first half reaction and sequentially pulsing the water vapor in a second half reaction, with each half reaction separated by an argon purge. 3. A method for forming a dielectric stack on a substrate, comprising: a) depositing a dielectric layer of hafnium silicate on the substrate by an atomic layer deposition process, wherein the substrate is exposed to an alkylamino hafnium compound, water vapor, and alkylamino silane compound during the atomic layer deposition process;b) exposing the dielectric layer to a plasma nitridation process;c) exposing the substrate to an annealing process; andd) repeating a process cycle of steps a-c to form the dielectric stack, wherein the depositing the dielectric layer of hafnium silicate further comprises co-flowing the alkylamino hafnium compound and the alkylamino silane compound in a first half reaction and sequentially pulsing the water vapor in a second half reaction, with each half reaction separated by an argon purge. 4. A method for forming a dielectric stack on a substrate, comprising: a) depositing a dielectric layer of hafnium silicate on the substrate by an atomic layer deposition process, wherein the hafnium silicate is formed from precursors of alkylamino hafnium, water vapor, and alkylamino silane;b) exposing the dielectric layer to a plasma nitridation process; andc) repeating a process cycle of steps a-b to form the dielectric stack, wherein the dielectric stack comprises a nitrogen concentration within a range from about 5 at % to about 25 at %, wherein the depositing the dielectric layer of hafnium silicate further comprises co-flowing the alkylamino hafnium compound and the alkylamino silane compound in a first half reaction and sequentially pulsing the water vapor in a second half reaction, with each half reaction separated by an argon purge. 5. A method for forming a dielectric nitride material on a substrate, comprising: depositing a dielectric layer of hafnium silicate on a substrate by an atomic layer deposition process, wherein the substrate is exposed to an alkylamino hafnium compound, water vapor, and an alkylamino silane compound during the atomic layer deposition process;exposing the dielectric layer to a plasma nitridation process to form a nitride layer thereon, wherein the nitride layer comprises a nitrogen concentration within a range from about 5 at % to about 25 at %; andexposing the nitride layer to an annealing process, wherein the depositing the dielectric layer of hafnium silicate further comprises co-flowing the alkylamino hafnium compound and the alkylamino silane compound in a first half reaction and sequentially pulsing the water vapor in a second half reaction, with each half reaction separated by an argon purge. 6. A method for forming a dielectric material on a substrate, comprising: depositing a metal oxide layer on a substrate during an atomic layer deposition process, wherein the metal oxide layer comprises hafnium silicate, wherein the substrate is exposed to an alkylamino hafnium compound, water vapor, and an alkylamino silane compound during the atomic layer deposition process;exposing the metal oxide layer to a plasma nitridation process to form a nitride layer thereon; andexposing the substrate sequentially to the deposition and nitridation processes while periodically exposing the substrate to an annealing process to form a dielectric stack having a predetermined thickness, wherein the depositing the metal oxide layer further comprises co-flowing the alkylamino hafnium compound and the alkylamino silane compound in a first half reaction and sequentially pulsing the water vapor in a second half reaction, with each half reaction separated by an argon purge.
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