Novel Fluoropolymers for Use in 157nm Lithography

H. Ito; G. M. Wallraff; N. Fender; P. J. Brock; C. E. Larson; H. D. Truong; G. Breyta; D. C. Miller; M. H. Sherwood; R. D. Allen

doi:10.2494/photopolymer.14.583

H. Ito, G. M. Wallraff, N. Fender, P. J. Brock, C. E. Larson, H. D. Truong, G. Breyta, D. C. Miller, M. H. Sherwood, R. D. Allen

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Keywords: 157nm lithography, norbornene, hexafluoroisopropanol, α-trifluoromethylacrylic monomers, radical copolymerization kinetics, chemical amplification, aqueous base development, quartz crystal microbalance, inverse-gated ¹³C-NMR

JOURNAL FREE ACCESS

2001 Volume 14 Issue 4 Pages 583-593

DOI https://doi.org/10.2494/photopolymer.14.583

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Abstract

Unexpectedly good UV transmittance at 157nm of poly(norbornene sulfone) bearing a pendant hexafluoroisopropanol functionality has prompted us to employ this fluoroalcohol as an acid group for the design of chemical amplification resists for use in 157nm lithography. The backbone structures to which the hexafluoroalcohol group is attached are polynorbornene and polystyrene. Furthermore, our discovery that poly(methyl α-trifluoromethylacrylate) is adequately transparent at 157nm has led us to incorporate the α-trifluoromethylacrylic unit in the polymer backbone by radical copolymerization with styrenes and norbornenes. Thus, four platforms are currently available to us in preparation of 157nm resist polymers; 1) all-acrylic, 2) all-norbornene, 3) acrylic-norbornene, and 4) acrylic-styrenic systems.

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