Hostname: page-component-848d4c4894-2pzkn Total loading time: 0 Render date: 2024-06-03T02:02:17.263Z Has data issue: false hasContentIssue false
  • English
  • Français

Aqueous Based Single Wafer Cleaning Process Development and Integration into 65nm Process Flow using Metal Hard Mask

Published online by Cambridge University Press:  01 February 2011

Miao-Chun Lin ,
Mei-Qi Wang ,
Cheng-Ming Weng ,
Chopin Chou ,
JH Liao ,
Jianshe Tang ,
Willey Weng ,
Wei Lu ,
Han-Wen Chen  and
John TC Lee
Miao-Chun Lin
Affiliation:
mei_qi_wang@umc.com, UMC, Advanced Etching Dept., No.18, Nanke 2nd Rd., Tainan Science Park, Sinshih, Tainan County, 741, Taiwan, 886-6-5054888-12596, 886-6-505-0960
Mei-Qi Wang
Affiliation:
mei_qi_wang@umc.com, UMC, Advanced Etching Dept., No.18, Nanke 2nd Rd., Tainan Science Park, Sinshih, Tainan County, 741, Taiwan
Cheng-Ming Weng
Affiliation:
Cheng_Ming_Weng@umc.com, UMC, Advanced Etching Dept., No.18, Nanke 2nd Rd., Tainan Science Park, Sinshih, Tainan County, 741, Taiwan
Chopin Chou
Affiliation:
Chopin_Chou@umc.com, UMC, Advanced Etching Dept., No.18, Nanke 2nd Rd., Tainan Science Park, Sinshih, Tainan County, 741, Taiwan
JH Liao
Affiliation:
J_H_Liao@umc.com, UMC, Advanced Etching Dept., No.18, Nanke 2nd Rd., Tainan Science Park, Sinshih, Tainan County, 741, Taiwan
Jianshe Tang
Affiliation:
Jianshe_Tang@amat.com, Applied Materials, 974 East Arques Avenue, M/S 81512,, Sunnyvale, CA, 94085, United States
Willey Weng
Affiliation:
Willey_Weng@amat.com, Applied Materials, 974 East Arques Avenue, M/S 81512,, Sunnyvale, CA, 94085, United States
Wei Lu
Affiliation:
Wei_Lu@amat.com, Applied Materials, 974 East Arques Avenue, M/S 81512,, Sunnyvale, CA, 94085, United States
Han-Wen Chen
Affiliation:
Han_Wen_Chen@amat.com, Applied Materials, 974 East Arques Avenue, M/S 81512,, Sunnyvale, CA, 94085, United States
John TC Lee
Affiliation:
John_TC_Lee@amat.com, Applied Materials, 974 East Arques Avenue, M/S 81512,, Sunnyvale, CA, 94085, United States
Get access

Abstract

As the industry develops processes for the 65 and 45 nm technology nodes, post etch/ash cleaning faces new challenges with far more stringent requirements on surface cleanliness and materials loss. The introduction and integration of new materials, such as metal hard mask, creates additional requirements for wafer cleaning due to the occurrence of new defect modes related to metal hard mask. These include organometallic residue and metal fluorite compounds precipitating with time. We have developed a novel aqueous solution (AQ) based single wafer cleaning process to address these new defect modes. Physical characterization results and process integration electrical data and reliability data (TEM cross section review of the vias) are presented in this paper.

The main conclusions can be summarized as follows: (1) In the dual damascene Cu/low-k process flow with hard mask, there are three typical residues after etch/ash: generic polymer residue, organometallic residue strongly bonded to metal maks, and time-dependent metal fluoride residue. (2) Generic polymer residue is very well characterized [1,2] and is usually easy to remove with solvent or aqueous solution [2,3]. (3)We developed an oxidizing chemistry based process to undercut the hard mask for the organometallic residue removal, which proved highly effective. (4)The time-dependent metal fluoride reside makes queue time control after etch/ash very critical (<1 hour). We developed a process with a fluorine based aqueous chemistry to address the metal fluoride residue, which proved highly effective. With this new process, queue time control is not required. (5) The post etch/ash cleaning for the Cu/low-k structure with metal hard mask typically employs the solvent/dry plasma ash multi-step procedure [4]. The new process developed in this research reduced the multi-step process to one wet clean step with two different aqueous chemistries in sequence. (6) The integration electrical data shows that the new single step aqueous cleaning process performance is comparable to, or even better than that from the solvent/dry plasma ash multi cleaning process. (7) Blanket Cu loss with the new process is about 23A/min, however TEM analysis of the vias after full integration shows Cu loss, we are working to improve the integration related Cu loss.

Keywords

Cupolymerfilm
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 914: Symposium F – Materials, Technology and Reliability of Low-k Dielectrics and Copper Interconnects , 2006 , 0914-F09-05
Copyright
Copyright © Materials Research Society 2006

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

references

1 Baklanov, M. R., Conard, T., Lankmans, F. et al. , Characterization of Plasma Etch Related Residues Formed on Top of ECD Cu Films, (Advanced Metallization Conference 1999, MRS Proceedings, p615~619.Google Scholar
2 Ueno, K. et al. , Cleaning of CHF3 Plasma-etched SiO2/SiN/ Cu Via Structures with Dilute Hydrofluoric Acid Solutions, J. Electrochem. Soc., Vol. 144, No. 7, July 1997.Google Scholar
3 Broussous, L., Hinsinger, O., Favier, S., Besson, P., Post Etch Cleaning Chemistries Evaluation for Low-k Cu Integration, Solid State Phenomena, Vol. 92 (2003), p263~266.Google Scholar
4 Weng, Cheng Ming, Lin, Miao Chun, Huang, Ren, US patent pending.Google Scholar
5 Richard, C. et al. ; Barrier and seedlayer wet etching, Solid State Phenomena, Vol. 103~104 (2005), p361~364.Google Scholar
6 Segura, J. and Hawkins, C., CMOS Electronics, How It Works, How It fails, (Wiley Interscience, A John Wiley & Sons, INC., Publication). 2004. p159~178.Google Scholar