157 nm resist materials: Progress report
10.1116/1.1321762
Crossref journal-article
American Vacuum Society
Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures Processing, Measurement, and Phenomena (20)
Abstract

Many semiconductor device manufacturers plan to make products with 157 nm lithography beginning in 2004. There is, at this time, no functional photoresist suitable for 157 nm exposure. Developing resist materials for 157 nm lithography is particularly challenging since water, oxygen, and even polyethylene are strongly absorbing at this wavelength. A modular approach to the design of a single layer resist for 157 nm has been undertaken. In this approach, the resist has been conceptually segmented into four functional modules: an acidic group, an acid labile protecting group, an etch resistant moiety, and a polymer backbone. Each of these modules has an assigned function and each must be transparent at 157 nm. Progress has been made toward finding candidate structures for each of these modules. We have demonstrated that acidic bistrifluoromethylcarbinols are very transparent at 157 nm and function efficiently in chemically amplified resists with both high and low activation energy protecting groups. Judicious incorporation of fluorine in acrylates and alicyclics has provided etch resistant polymers with greatly improved transparency at 157 nm. In particular, esters of poly(α-trifluromethylacrylic acid) are far more transparent than their protio analogs. The Diels–Alder adducts derived from reaction of these and other fluorinated alkenes with cyclopentadiene offer a route to a wide range of alicyclic monomers that show great promise as transparent, etch resistant platforms for the design of 157 nm resists. Polymers of this sort with absorbance below 2 per micrometer are reported.

Bibliography

Brodsky, C., Byers, J., Conley, W., Hung, R., Yamada, S., Patterson, K., Somervell, M., Trinque, B., Tran, H. V., Cho, S., Chiba, T., Lin, S.-H., Jamieson, A., Johnson, H., Vander Heyden, T., & Willson, C. G. (2000). 157 nm resist materials: Progress report. Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures Processing, Measurement, and Phenomena, 18(6), 3396–3401.

Authors 16
  1. Colin Brodsky (first)
  2. Jeff Byers (additional)
  3. Will Conley (additional)
  4. Raymond Hung (additional)
  5. Shintaro Yamada (additional)
  6. Kyle Patterson (additional)
  7. Mark Somervell (additional)
  8. Brian Trinque (additional)
  9. H. V. Tran (additional)
  10. Sungseo Cho (additional)
  11. Takashi Chiba (additional)
  12. Shang-Ho Lin (additional)
  13. Andrew Jamieson (additional)
  14. Heather Johnson (additional)
  15. Tony Vander Heyden (additional)
  16. C. Grant Willson (additional)
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Dates
Type When
Created 23 years, 1 month ago (July 27, 2002, 5:18 a.m.)
Deposited 2 years ago (Aug. 9, 2023, 2:01 a.m.)
Indexed 1 year, 10 months ago (Oct. 17, 2023, 6:35 p.m.)
Issued 24 years, 10 months ago (Nov. 1, 2000)
Published 24 years, 10 months ago (Nov. 1, 2000)
Published Print 24 years, 10 months ago (Nov. 1, 2000)
Funders 0

None

@article{Brodsky_2000, title={157 nm resist materials: Progress report}, volume={18}, ISSN={1520-8567}, url={http://dx.doi.org/10.1116/1.1321762}, DOI={10.1116/1.1321762}, number={6}, journal={Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures Processing, Measurement, and Phenomena}, publisher={American Vacuum Society}, author={Brodsky, Colin and Byers, Jeff and Conley, Will and Hung, Raymond and Yamada, Shintaro and Patterson, Kyle and Somervell, Mark and Trinque, Brian and Tran, H. V. and Cho, Sungseo and Chiba, Takashi and Lin, Shang-Ho and Jamieson, Andrew and Johnson, Heather and Vander Heyden, Tony and Willson, C. Grant}, year={2000}, month=nov, pages={3396–3401} }