The Effect of endo/exo-Norbornene Isomer Ratio on Poly(norbornene) Optical Density at 193 nm

Chun Chang; Andrew Bell; Robert A. Shick; Lawrence D. Seger; Larry F. Rhodes; George M. Benedikt

doi:10.2494/photopolymer.27.497

Chun Chang, Andrew Bell, Robert A. Shick, Lawrence D. Seger, Larry F. Rhodes, George M. Benedikt

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Keywords: Norbornene, transparency, 193 nm, endo, exo

JOURNAL FREE ACCESS

2014 Volume 27 Issue 4 Pages 497-501

DOI https://doi.org/10.2494/photopolymer.27.497

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Abstract

The polymerization of exo-[(norbornenemethoxy)methyl]-1,1,1,3,3,3-hexafluoro-2-propanol (2) using a palladium catalyst gave a significantly higher Mw polymer than the endo isomer or the 80/20 mixture of endo/exo-2. To achieve similar M_w higher concentrations of formic acid chain transfer agent was needed for the exo isomer than for the 80/20 mixture. As a result, the optical density at 193 nm of the exo isomer polymer is substantially lower since less olefinic polymer end groups were formed. A subtle interplay between chain transfer mechanisms and propagation rates explains the results obtained. Isomer content in poly(2) does not affect the dissolution rate in TMAH.

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