Chain scission resists for extreme ultraviolet lithography based on high performance polysulfone-containing polymers

A series of polymers with a comb architecture were prepared where the poly(olefin sulfone) backbone was designed to be highly sensitive to extreme ultraviolet (EUV) radiation, while the well-defined poly(methyl methacrylate) (PMMA) arms were incorporated with the aim of increasing structural stabili...

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Bibliographic Details
Published in:Journal of materials chemistry 2011-01, Vol.21 (15), p.5629-5637
Main Authors: Lawrie, Kirsten J., Blakey, Idriss, Blinco, James P., Cheng, Han Hao, Gronheid, Roel, Jack, Kevin S., Pollentier, Ivan, Leeson, Michael J., Younkin, Todd R., Whittaker, Andrew K.
Format: Article
Language:English
Subjects:
Backbone
Degradation
Nanomaterials
Nanostructure
Polymers
Polymethyl methacrylates
Sulfones
Ultraviolet
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Summary:A series of polymers with a comb architecture were prepared where the poly(olefin sulfone) backbone was designed to be highly sensitive to extreme ultraviolet (EUV) radiation, while the well-defined poly(methyl methacrylate) (PMMA) arms were incorporated with the aim of increasing structural stability. It is hypothesized that upon EUV radiation rapid degradation of the polysulfone backbone will occur leaving behind the well-defined PMMA arms. The synthesized polymers were characterised and have had their performance as chain-scission EUV photoresists evaluated. It was found that all materials possess high sensitivity towards degradation by EUV radiation (E0 in the range 4-6 mJ cm-2). Selective degradation of the poly(1-pentene sulfone) backbone relative to the PMMA arms was demonstrated by mass spectrometry headspace analysis during EUV irradiation and by grazing-angle ATR-FTIR. EUV interference patterning has shown that materials are capable of resolving 30 nm 1 : 1 line : space features. The incorporation of PMMA was found to increase the structural integrity of the patterned features. Thus, it has been shown that terpolymer materials possessing a highly sensitive poly(olefin sulfone) backbone and PMMA arms are able to provide a tuneable materials platform for chain scission EUV resists. These materials have the potential to benefit applications that require nanopattering, such as computer chip manufacture and nano-MEMS.
ISSN:0959-9428
1364-5501
DOI:10.1039/c0jm03288c