A CMP process is provided. A first polishing process on a wafer is performed using a first hard polishing pad with a first slurry. Then, a buffering process on the wafer is performed using a soft polishing pad with a cleaning agent to buffer the pH value in the first polishing process and to remove
A CMP process is provided. A first polishing process on a wafer is performed using a first hard polishing pad with a first slurry. Then, a buffering process on the wafer is performed using a soft polishing pad with a cleaning agent to buffer the pH value in the first polishing process and to remove at least portion of the first slurry and the cleaning agent by the contact with the first soft polishing pad simultaneously. Thereafter, a second polishing process on the wafer is performed using a second hard polishing pad with a second slurry such that the pH value after the buffering process is between the pH value in the first polishing process and the pH value in the second polishing process. The method can avoid the scratch issue of wafer surface by particles resulting from pH shock and cross contamination.
대표청구항▼
What is claimed is: 1. A CMP process, comprising the steps of: performing a first polishing process on a wafer using a first hard polishing pad and a first slurry; performing a buffering process on the wafer using a first soft polishing pad and a cleaning agent to buffer the pH value In the first p
What is claimed is: 1. A CMP process, comprising the steps of: performing a first polishing process on a wafer using a first hard polishing pad and a first slurry; performing a buffering process on the wafer using a first soft polishing pad and a cleaning agent to buffer the pH value In the first polishing process and to remove at least portion of the first slurry and the cleaning agent by the contact with the first soft polishing pad simultaneously; and performing a second polishing process on the wafer using a second hard polishing pad and a second slurry so that the pH value after the buffering process is between the pH value in the first polishing process and the pH value in the second polishing process. 2. The CMP process of claim 1, wherein the material constituting the first soft polishing pad includes Polytex. 3. The CMP process of claim 1, wherein a downforce of the first soft polishing pad is about 0.1 to about 5 psi and a process time is about 1 to about 100 seconds during the buffering process. 4. The CMP process of claim 1, further comprises cleaning the wafer using a second soft polishing pad after performing the second polishing process. 5. The CMP process of claim 1, wherein the first slurry includes an abrasive component. 6. The CMP process of claim 5, wherein the abrasive component includes aluminum oxide, silicon oxide or cerium oxide. 7. The CMP process of claim 1, wherein the second slurry includes an abrasive component. 8. The CMP process of claim 7, wherein the abrasive component includes aluminum oxide, silicon oxide or cerium oxide. 9. The CMP process of claim 1, wherein the buffering process includes injecting the cleaning agent under pressure. 10. The CMP process of claim 1, wherein the first slurry has a pH value smaller than 7. 11. The CMP process of claim 10, wherein the second slurry has a pH value greater than 7. 12. The CMP process of claim 10, wherein the cleaning agent includes de-ionized water. 13. The CMP process of claim 10, wherein the cleaning agent includes a chemical compound having a pH value greater than 7. 14. The CMP process of claim 10, wherein the cleaning agent includes de-ionized water or water with potassium hydroxide (KOH) or ammonia. 15. The CMP process of claim 1, wherein the first slurry has a pH value greater than 7. 16. The CMP process of claim 15, wherein the second slurry has a pH value smaller than 7. 17. The CMP process of claim 15, wherein the cleaning agent includes de-ionized water. 18. The CMP process of claim 15, wherein the cleaning agent includes de-ionized water or water with carbon dioxide (CO2), citric acid or oxalic acid. 19. The CMP process of claim 15, wherein the cleaning agent includes a chemical compound having a pH value between 6 and 7. 20. The CMP process of claim 1 is used for STI CMP. 21. The CMP process of claim 20, wherein oxide removal amount is less than 200 Å or substantially zero in the buffering process. 22. The CMP process of claim 1 is used for Cu-CMP. 23. A CMP process, comprising the steps of: providing a material layer over a wafer, wherein the material layer has a first surface; performing a first polishing process to remove a portion of the material layer and expose a second surface of the material layer, wherein the first polishing process is carried out using a first slurry; performing a buffering process using a soft polishing pad and a cleaning agent to clean the second surface, buffer the pH value in the first polishing process and remove at least portion of the first slurry and the cleaning agent; and performing a second polishing process by using a second slurry to remove a portion of the material layer and expose a third surface of the material layer, wherein the pH value after the buffering process is between the pH value in the first polishing process and the pH value in the second polishing process. 24. The CMP process of claim 23, wherein a process time of the buffering process is about 1 to about 100 seconds. 25. The CMP process of claim 23, wherein the first slurry includes an abrasive component. 26. The CMP process of claim 25, wherein the abrasive component includes aluminum oxide, silicon oxide or cerium oxide. 27. The CMP process of claim 23, wherein the second slurry includes an abrasive component. 28. The CMP process of claim 27, wherein the abrasive component includes aluminum oxide, silicon oxide or cerium oxide. 29. The CMP process of claim 23, wherein the buffering process includes injecting the cleaning agent under pressure. 30. The CMP process of claim 23, wherein the first slurry has a pH value smaller than 7. 31. The CMP process of claim 30, wherein the second slurry has a pH value greater than 7. 32. The CMP process of claim 30, wherein the cleaning agent includes de-ionized water. 33. The CMP process of claim 30, wherein the cleaning agent includes a chemical compound having a pH value greater than 7. 34. The CMP process of claim 30, wherein the cleaning agent includes de-ionized water or water with potassium hydroxide (KOH) or ammonia. 35. The CMP process of claim 23, wherein the first slurry has a pH value greater than 7. 36. The CMP process of claim 35, wherein the second slurry has a pH value smaller than 7. 37. The CMP process of claim 35, wherein the cleaning agent includes de-ionized water. 38. The CMP process of claim 35, wherein the cleaning agent includes de-ionized water or water with carbon dioxide (CO2), citric acid or oxalic acid. 39. The CMP process of claim 35, wherein the cleaning agent includes a chemical compound having a pH value between 6 and 7. 40. The CMP process of claim 23 is used for STI CMP. 41. The CMP process of claim 40, wherein oxide removal amount is less than 200 Å or substantially zero in the buffering process. 42. The CMP process of claim 23 is used for Cu-CMP.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (8)
Farkas Janos ; Bajaj Rajeev ; Freeman Melissa ; Watts David K. ; Das Sanjit, Chemical mechanical polishing (CMP) slurry for polishing copper interconnects which use tantalum-based barrier layers.
Bankaitis, Jonas; Moore, Michael John; Stone, Jeffery Scott; Williamson, Paul Jeffrey; Zhang, Chunhe, Methods and apparatus for edge chamfering of semiconductor wafers using chemical mechanical polishing.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.