Claims
- 1. A method of providing a dielectric for a surface of an in-process semiconductor device, comprising:
cleaning said surface; forming on said surface a material selected from a group comprising:
oxides, and oxynitrides; and removing a portion of said material.
- 2. The method in claim 1, wherein said step of providing on said surface a material further comprises incorporating a constituent from said surface into said material.
- 3. The method in claim 2, wherein said step of removing a portion of said material further comprises removing said constituent.
- 4. A method of processing a wafer, comprising:
cleaning said wafer; growing an oxide on said wafer; cleaning said oxide; depositing additional oxide over said wafer; and providing a structure over said wafer.
- 5. The method in claim 4, wherein said step of cleaning said oxide further comprises removing said oxide; and said step of depositing additional oxide over said wafer further comprises depositing additional oxide on said wafer.
- 6. The method in claim 5, wherein said step of cleaning said oxide further comprises vapor cleaning said oxide.
- 7. The method in claim 6, wherein said step of cleaning said wafer further comprises vapor cleaning said wafer.
- 8. The method in claim 7, wherein said step of cleaning said wafer further comprises wet cleaning said wafer.
- 9. The method in claim 8, wherein said step of cleaning said wafer further comprises:
wet cleaning said wafer; and subsequently vapor cleaning said wafer.
- 10. A method of forming a semiconductor device, comprising:
removing a constituent from a surface of said device; forming a first oxide over said surface; forming a second oxide over said surface; forming an electrode over said surface; and clustering said steps of removing a contaminant, providing a first oxide, providing a second oxide, and providing an electrode over said surface.
- 11. The method in claim 10, wherein said step of providing a first oxide over said surface further comprises growing oxide on said surface.
- 12. The method in claim 11, wherein said step of growing oxide on said surface further comprises rapidly thermally oxidizing said surface.
- 13. The method in claim 12, wherein said step of growing oxide on said surface further comprises inducing chemical oxide growth through an ultraviolet-ozone treatment before rapidly thermally oxidizing said surface.
- 14. The method in claim 13, wherein said step of providing a second oxide further comprises depositing a second oxide onto grown oxide.
- 15. The method in claim 13, wherein said step of providing a second oxide further comprises providing a second oxide having a composition similar to a composition of said first oxide.
- 16. A method of processing a semiconductor device, comprising:
performing a vapor clean on said device; growing a first amount of oxide on said device; depositing a second amount of oxide on said device; and forming a gate on said second amount of oxide.
- 17. The method in claim 16, further comprising a step of gettering said first amount of oxide.
- 18. The method in claim 17, wherein said step of forming a gate further comprises depositing polysilicon on said second amount of oxide.
- 19. The method in claim 18, wherein said step of forming a gate further comprises doping said polysilicon with germanium.
- 20. The method in claim 19, wherein said step of doping said polysilicon with germanium further comprises providing a germanium concentration generally ranging from 2% to 25% within said polysilicon.
- 21. A method of developing a topography in a substrate, comprising:
growing a first layer of oxide from said substrate; cleaning said first layer; and growing a second layer of oxide from said substrate.
- 22. The method in claim 21, wherein said step of cleaning said first layer further comprises removing at least a portion of said first layer.
- 23. The method in claim 22, further comprising a step of removing said second layer.
- 24. The method in claim 23, wherein said step of removing at least a portion of said first layer further comprises removing all of said first layer.
- 25. The method in claim 22, wherein said step of growing a second layer further comprises growing a second layer of oxide in an embedded site of said substrate.
- 26. A method of providing an oxide having a first depth in a first region and a second depth in a second region, wherein said second depth is greater than said first depth, and wherein said method comprises:
growing a first portion of oxide over said first region and said second region; thinning said first portion to said first depth; and growing a second portion of oxide over said second region.
- 27. The method in claim 26, further comprising a step of further thinning said first portion over said second region to less than said first depth.
- 28. The method in claim 27, wherein said step of further thinning said first portion comprises removing a part of said first portion located over said second region.
- 29. A method of forming a gate for a semiconductor device, comprising:
bonding contaminants at a level of said semiconductor device; providing an adhesion layer at a gate site on said level; forming a gate oxide made of tantalum pentoxide over said gate site; and providing a gate material over said gate oxide.
- 30. The method in claim 29, wherein said step of providing an adhesion layer further comprises providing an oxynitride layer over said level.
- 31. The method in claim 30, further comprising a step of conditioning said gate oxide.
- 32. The method in claim 31, wherein said step of conditioning said gate oxide further comprises hardening said gate oxide.
- 33. The method in claim 32, wherein said step of conditioning said gate oxide further comprises exposing said gate oxide to a nitridizing ambient.
- 34. The method in claim 33, wherein said step of providing a gate material further comprises depositing a selection from a group of materials comprising titanium nitride and tungsten nitride.
- 35. The method in claim 31, wherein said step of conditioning said gate oxide further comprises performing steam oxidation of said gate oxide.
- 36. A method of forming a tunnel oxide of an in-process memory cell, comprising:
removing contaminants from an area of said in-process memory cell; oxidizing said area for a first time; and oxidizing said area for a second time.
- 37. The method in claim 36, wherein said step of removing contaminants further comprises:
performing a pre-oxidation cleaning; and performing an inter-oxidation cleaning.
- 38. The method in claim 37, wherein said step of performing an inter-oxidation cleaning further comprises:
cleaning after oxidizing said area for said first time; and cleaning before oxidizing said area for said second time.
- 39. A method of developing a semiconductor device, comprising:
cleaning a level of said semiconductor device; furnishing a first oxide layer at said level; cleaning said first oxide layer; furnishing a second oxide layer over said level; hardening said second oxide layer; and furnishing an electrode on said second oxide layer.
- 40. The method in claim 39, wherein said step of cleaning said level further comprises:
removing a residue from said level; and neutralizing a contaminant within said level.
- 41. The method in claim 40, wherein said step of removing a residue further comprises passivating said level.
- 42. The method in claim 41, wherein said step of furnishing a first oxide layer at said level further comprises:
providing an ozone environment at said level; and irradiating said ozone environment with ultraviolet radiation.
- 43. The method in claim 42, wherein said step of furnishing a first oxide layer at said level further comprises performing rapid thermal oxidation at said level.
- 44. A method of forming a wafer, comprising:
sculpting a portion of said wafer using an oxidation/cleaning cycle; and forming an oxide layer on said wafer using said oxidation/cleaning cycle.
- 45. The method in claim 44, wherein said step of sculpting a portion of said wafer using an oxidation/cleaning cycle further comprises:
oxidizing said wafer; cleaning away an oxidized material; and repeating said steps of oxidizing and cleaning until a particular thickness of said oxidized material remains.
- 46. The method in claim 45, wherein said step of sculpting a portion of said wafer further comprises sculpting a substrate of said wafer.
- 47. The method in claim 46, wherein said step of forming an oxide layer on said wafer further comprises forming an oxide layer over said portion.
- 48. The method in claim 47, wherein said step of sculpting a portion of said wafer further comprises sculpting along a plane within said wafer generally parallel to a surface of said substrate.
- 49. The method in claim 45, wherein said step of repeating said steps of oxidizing and cleaning further comprises repeating said steps of oxidizing and cleaning until no thickness of said oxidized material remains.
- 50. A conditioning method, comprising:
providing a process device defining a process chamber; providing an object within said process chamber; and mixing H2 and O2 within said process chamber.
- 51. The method in claim 50, wherein said step of providing a process device further comprises providing a rapid thermal process device.
- 52. The method in claim 51, wherein said step of mixing H2 and O2 further comprises mixing H2 and O2 at a pressure of at most generally one atmosphere.
- 53. The method in claim 52, wherein said step of mixing H2 and O2 further comprises mixing H2 and O2 at a temperature generally ranging from 500° to 900° C.
- 54. The method in claim 53, wherein said step of providing an object further comprises providing an object having a film exposed to said process chamber.
- 55. The method in claim 54, wherein said step of providing an object further comprises providing an object having a grown film.
- 56. A method of affecting a leakage factor of a gated device, comprising:
providing a process area; controlling clean-room-contaminant access to said process area; and operating on a wafer within said process area, further comprising:
cleaning said wafer, providing a gate oxide on said wafer, and nitridizing said gate oxide within said process area.
- 57. The method in claim 56, wherein said step of nitridizing said gate oxide further comprises rapidly thermally nitridizing said gate oxide.
- 58. The method in claim 57, wherein said step of providing a gate oxide further comprises:
growing at least one oxide layer; and cleaning at least one oxide layer.
RELATED APPLICATIONS
[0001] This application is a divisional of application Ser. No. 09/652,723, filed Aug. 31, 2000; which is a divisional of application Ser. No. 09/017,453, filed Feb. 2, 1998.
Divisions (2)
|
Number |
Date |
Country |
Parent |
09652723 |
Aug 2000 |
US |
Child |
10133132 |
Apr 2002 |
US |
Parent |
09017453 |
Feb 1998 |
US |
Child |
09652723 |
Aug 2000 |
US |