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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | UP-0029757 (2005-01-05) |
등록번호 | US-7560395 (2009-07-27) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 34 인용 특허 : 376 |
A dielectric layer containing hafnium tantalum film arranged as a structure of one or more monolayers and a method of fabricating such a dielectric layer produce a dielectric layer for use in a variety of electronic devices. In an embodiment, a hafnium tantalum oxide film may be formed by depositing
A dielectric layer containing hafnium tantalum film arranged as a structure of one or more monolayers and a method of fabricating such a dielectric layer produce a dielectric layer for use in a variety of electronic devices. In an embodiment, a hafnium tantalum oxide film may be formed by depositing hafnium and tantalum by atomic layer deposition onto a substrate surface. Embodiments include structures for capacitors, transistors, memory devices, and electronic systems with dielectric layers containing a hafnium tantalum oxide film arranged as a structure of one or more monolayers, and methods for forming such structures.
What is claimed is: 1. A method comprising: forming a source region and a drain region separated by a body region; forming a gate; and forming a dielectric layer above the body region and below the gate, the dielectric layer containing a hafnium tantalum oxide layer, the hafnium tantalum oxide bein
What is claimed is: 1. A method comprising: forming a source region and a drain region separated by a body region; forming a gate; and forming a dielectric layer above the body region and below the gate, the dielectric layer containing a hafnium tantalum oxide layer, the hafnium tantalum oxide being a bimetal oxide, the hafnium tantalum oxide layer formed as one or more monolayers by a layer-by-layer process having a plurality of cycles, each cycle including: introducing a precursor containing hafnium to a substrate; and introducing a precursor containing tantalum to the substrate such that a purging process is performed between introducing the precursor containing hafnium and introducing the precursor containing tantalum, wherein introducing each precursor is performed at a pressure, a substrate temperature, and pulsing parameters selected individually for each precursor to form hafnium titanium oxide in the cycle. 2. The method of claim 1, wherein forming the gate includes forming the gate as a control gate, and forming the dielectric layer includes forming the dielectric layer as an inter-gate dielectric below the control gate and above a floating gate. 3. The method of claim 1, wherein introducing a precursor containing hafnium includes pulsing a hafnium nitrate precursor. 4. The method of claim 1, wherein the method includes annealing the dielectric layer after forming the hafnium tantalum oxide layer. 5. The method of claim 1, wherein the method includes conducting a surface nitridation in a nitrogen based ambient before forming the dielectric layer. 6. The method of claim 1, wherein the method is a method of forming an integrated circuit including forming the dielectric layer as a gate insulator of a transistor in the integrated circuit. 7. The method of claim 1, wherein the method is a method of forming an integrated circuit including forming the dielectric layer as a gate insulator in a CMOS transistor in the integrated circuit. 8. The method of claim 1, wherein forming the dielectric layer includes forming the dielectric layer as a nanolaminate having the hafnium tantalum oxide layer. 9. The method of claim 8, wherein forming the dielectric layer includes forming a tantalum oxide layer as a layer of the nanolaminate. 10. The method of claim 8, wherein forming the dielectric layer includes forming a hafnium oxide layer as a layer of the nanolaminate. 11. The method of claim 1, wherein the method is a method of forming an integrated circuit on a silicon-on-insulator substrate. 12. The method of claim 1, wherein the method includes forming a capacitor containing a second hafnium tantalum oxide layer and forming the second hafnium tantalum oxide layer by atomic layer deposition. 13. The method of claim 1, wherein the method is a method of forming a memory device. 14. The method of claim 1, wherein the method is a method of forming an electronic system. 15. A method comprising: forming a source region and a drain region separated by a body region; forming a gate; and forming a dielectric layer above the body region and below the gate, the dielectric layer containing a hafnium tantalum oxide layer, the hafnium tantalum oxide layer formed as one or more monolayers by a process including: introducing a precursor containing hafnium to a substrate; and introducing a precursor containing tantalum to the substrate, wherein introducing the precursor containing tantalum includes pulsing a tantalum ethoxide precursor. 16. A method comprising: forming a source region and a drain region separated by a body region; forming a gate; and forming a dielectric layer above the body region and below the gate, the dielectric layer containing a hafnium tantalum oxide layer, the hafnium tantalum oxide layer formed as one or more monolayers by a process including: introducing a precursor containing hafnium to a substrate; and introducing a precursor containing tantalum to the substrate, and forming a capacitor containing a second hafnium tantalum oxide layer and forming the second hafnium tantalum oxide layer by atomic layer deposition, wherein forming the capacitor containing the second hafnium tantalum oxide layer includes forming the second hafnium tantalum oxide layer of the capacitor in an analog integrated circuit. 17. A method comprising: forming a source region and a drain region separated by a body region; forming a gate; and forming a dielectric layer above the body region and below the gate, the dielectric layer containing a hafnium tantalum oxide layer, the hafnium tantalum oxide layer formed as one or more monolayers by a process including: introducing a precursor containing hafnium to a substrate; and introducing a precursor containing tantalum to the substrate, and forming a capacitor containing a second hafnium tantalum oxide layer and forming the second hafnium tantalum oxide layer by atomic layer deposition, wherein forming the capacitor containing the second hafnium tantalum oxide layer includes forming the second hafnium tantalum oxide layer of the capacitor in a radio frequency integrated circuit. 18. A method comprising: forming a source region and a drain region separated by a body region; forming a gate; and forming a dielectric layer above the body region and below the gate, the dielectric layer containing a hafnium tantalum oxide layer, the hafnium tantalum oxide layer formed as one or more monolayers by a process including: introducing a precursor containing hafnium to a substrate; and introducing a precursor containing tantalum to the substrate, and forming a capacitor containing a second hafnium tantalum oxide layer and forming the second hafnium tantalum oxide layer by atomic layer deposition, wherein forming the capacitor containing the second hafnium tantalum oxide layer includes forming the second hafnium tantalum oxide layer of the capacitor in a mixed signal integrated circuit. 19. A method comprising: forming a memory array in a substrate including: forming a source region and a drain region separated by a body region; forming a gate; and forming a dielectric layer above the body region and below the gate, the dielectric layer containing a hafnium tantalum oxide layer, the hafnium tantalum oxide being a bimetal oxide, the hafnium tantalum oxide layer formed as one or more monolayers by a layer-by-layer process having a plurality of cycles, each cycle including: introducing a precursor containing hafnium to the substrate; and introducing a precursor containing tantalum to the substrate such that a purging process is performed between introducing the precursor containing hafnium and introducing the precursor containing tantalum, wherein introducing each precursor is performed at a pressure, a substrate temperature, and pulsing parameters selected individually for each precursor to form hafnium titanium oxide in the cycle; and forming a connection to couple the memory array to a bus. 20. The method of claim 19, wherein forming the gate includes forming the gate as a control gate, and forming the dielectric layer includes forming the dielectric layer as an inter-gate dielectric below the control gate and above a floating gate. 21. The method of claim 19, wherein the method is a method of forming a memory device including forming the dielectric layer as a gate insulator of a transistor in the memory device. 22. The method of claim 19, wherein the method is a method of forming a flash memory device including forming a second hafnium tantalum oxide layer by atomic layer deposition, the second hafnium tantalum oxide layer formed as part of an inter-gate insulator of a floating gate transistor in the flash memory device. 23. The method of claim 19, wherein the method is a method of forming a memory device including forming a second hafnium tantalum oxide layer by atomic layer deposition, the second hafnium tantalum oxide layer formed as part of a capacitor in the memory device. 24. The method of claim 19, wherein the method includes forming a dynamic random access memory. 25. A method comprising: forming a memory array in a substrate including: forming a source region and a drain region separated by a body region; forming a gate; and forming a dielectric layer above the body region and below the gate, the dielectric layer containing a hafnium tantalum oxide layer, the hafnium tantalum oxide layer formed as one or more monolayers by a process including: introducing a precursor containing hafnium to the substrate, wherein pulsing the precursor containing hafnium includes a hafnium halide precursor; and introducing a precursor containing tantalum to the substrate; and forming a connection to couple the memory array to a bus. 26. A method comprising: forming a memory array in a substrate including: forming a source region and a drain region separated by a body region; forming a gate; and forming a dielectric layer above the body region and below the gate, the dielectric layer containing a hafnium tantalum oxide layer, the hafnium tantalum oxide layer formed as one or more monolayers by a process including: introducing a precursor containing hafnium to the substrate; and introducing a precursor containing tantalum to the substrate, wherein pulsing the precursor containing tantalum includes pulsing tantalum halide precursor; and forming a connection to couple the memory array to a bus. 27. A method comprising: forming a memory array in a substrate including: forming a source region and a drain region separated by a body region; forming a gate; and forming a dielectric layer above the body region and below the gate, the dielectric layer containing a hafnium tantalum oxide layer, the hafnium tantalum oxide layer formed as one or more monolayers by a process including: introducing a precursor containing hafnium to the substrate; and introducing a precursor containing tantalum to the substrate, wherein pulsing a precursor containing tantalum includes pulsing a tantalum ethoxide precursor; and forming a connection to couple the memory array to a bus. 28. A method comprising: providing a controller; coupling an integrated circuit to the controller, wherein at least one of the integrated circuit or the controller includes a dielectric layer above a body region and below a gate, the body region separating a source region and a drain region, the dielectric layer containing a hafnium tantalum oxide layer, the hafnium tantalum oxide being a bimetal oxide, the hafnium tantalum oxide layer formed as one or more monolayers by a layer-by-layer process having a plurality of cycles, each cycle including: pulsing a precursor containing tantalum onto a substrate; and pulsing a precursor containing hafnium onto the substrate such that a purging process is performed between introducing the precursor containing hafnium and introducing the precursor containing tantalum, wherein introducing each precursor is performed at a pressure, a substrate temperature, and pulsing parameters selected individually for each precursor to form hafnium titanium oxide in the cycle. 29. The method of claim 28, wherein forming the gate includes forming the gate as a control gate and forming the dielectric layer includes forming the dielectric layer as an inter-gate dielectric below the control gate and above a floating gate. 30. The method of claim 28, wherein pulsing a precursor containing hafnium includes pulsing a hafnium nitrate precursor. 31. The method of claim 28, wherein pulsing a precursor containing tantalum includes pulsing at least one of a tantalum ethoxide precursor or a tantalum halide precursor. 32. The method of claim 28, wherein coupling an integrated circuit to the controller includes coupling a memory device as the integrated circuit. 33. The method of claim 28, wherein forming the hafnium tantalum oxide layer includes forming the hafnium tantalum oxide layer as a layer in the dielectric layer formed as a nanolaminate. 34. The method of claim 28, wherein forming the hafnium tantalum oxide layer includes forming the hafnium tantalum oxide layer as a layer in the dielectric layer formed as a nanolaminate having a tantalum oxide layer. 35. The method of claim 28, wherein forming the hafnium tantalum oxide layer includes forming the hafnium tantalum oxide layer as a layer in the dielectric layer formed as a nanolaminate having a hafnium oxide layer. 36. The method of claim 28, wherein providing a controller includes providing a processor. 37. The method of claim 28, wherein coupling an integrated circuit to the controller includes coupling a mixed signal integrated circuit as the integrated circuit. 38. The method of claim 28, wherein the method is a method of forming an information handling system.
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