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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0448059 (2014-07-31) |
등록번호 | US-9496167 (2016-11-15) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 41 인용 특허 : 688 |
Methods of forming flash memory cells are described which incorporate air gaps for improved performance. The methods are useful for so-called “2-d flat cell” flash architectures. 2-d flat cell flash memory involves a reactive ion etch to dig trenches into multi-layers containing high work function a
Methods of forming flash memory cells are described which incorporate air gaps for improved performance. The methods are useful for so-called “2-d flat cell” flash architectures. 2-d flat cell flash memory involves a reactive ion etch to dig trenches into multi-layers containing high work function and other metal layers. The methods described herein remove the metal oxide debris from the sidewalls of the multi-layer trench and then, without breaking vacuum, selectively remove shallow trench isolation (STI) oxidation which become the air gaps. Both the metal oxide removal and the STI oxidation removal are carried out in the same mainframe with highly selective etch processes using remotely excited fluorine plasma effluents.
1. A method of forming a flash device, the method comprising: transferring a patterned substrate into a substrate processing mainframe, wherein the patterned substrate comprises two adjacent polysilicon gates separated by shallow trench isolation silicon oxide, and wherein the patterned substrate fu
1. A method of forming a flash device, the method comprising: transferring a patterned substrate into a substrate processing mainframe, wherein the patterned substrate comprises two adjacent polysilicon gates separated by shallow trench isolation silicon oxide, and wherein the patterned substrate further comprises a block layer over a charge trap layer over a protective liner over the two adjacent polysilicon gates, and wherein the patterned substrate further comprises a trench perpendicular to the shallow trench isolation silicon oxide, wherein a sidewall of the trench having metal-oxide residue on one or more of the block layer, the charge trap layer, the protective liner and the two adjacent polysilicon gates, wherein the metal-oxide residue is left over from a reactive-ion etch process used to form the trench;transferring the patterned substrate into a first substrate processing chamber mounted on the substrate processing mainframe;forming first plasma effluents by flowing a first fluorine-containing precursor into a first remote plasma region within the first substrate processing chamber while striking a plasma;flowing the first plasma effluents into a first substrate processing region within the first substrate processing chamber; wherein the first substrate processing region houses the patterned substrate;reacting the first plasma effluents with the metal-oxide residue to selectively remove the metal-oxide residue from the sidewall of the trench;transferring the patterned substrate from the first substrate processing chamber to a second substrate processing chamber mounted on the substrate processing mainframe;forming second plasma effluents by flowing a second fluorine-containing precursor into a second remote plasma region within the second substrate processing chamber while striking a plasma;flowing the second plasma effluents through a showerhead into a second substrate processing region housing the patterned substrate within the second substrate processing chamber; andforming a pocket for an air gap between the two adjacent polysilicon gates by selectively removing a portion of the shallow trench isolation silicon oxide by reacting the second plasma effluents with the shallow trench isolation silicon oxide. 2. The method of forming a flash device of claim 1, wherein the protective liner is a nitridation layer or a silicon nitride layer. 3. The method of forming a flash device of claim 1, wherein the trench has a width less than or about 15 nm. 4. The method of forming a flash device of claim 1, wherein the block layer comprises hafnium oxide. 5. The method of forming a flash device of claim 1, wherein flowing the first fluorine-containing precursor into the first remote plasma region further comprises flowing one of an oxygen-containing precursor or a hydrogen-containing precursor into the first remote plasma region.
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