A novel chemically amplified positive deep UV photoresist with significantly reduced sensitivity to environmental contamination

t‐Boc protected Deep‐UV transparent polymers with photoacid generators have been widely investigated as potential positive deep‐UV resist systems. However, utility of these systems is seriously handicapped by environmental contaminants leading to an insoluble “surface skin” formation. Only with a sp...

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Veröffentlicht in:	Polymer engineering and science 1992-11, Vol.32 (21), p.1571-1577
Hauptverfasser:	Chatterjee, Subhankar, Jain, Sangya, Lu, Ping H., Khanna, Dinesh N., Potvin, Robert E., McCaulley, James A., Rafalko, Joseph
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Sprache:	eng
Schlagworte:	Applied sciences Exact sciences and technology Physicochemistry of polymers Polymers and radiations Properties and characterization
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container_end_page	1577
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container_title	Polymer engineering and science
container_volume	32
creator	Chatterjee, Subhankar Jain, Sangya Lu, Ping H. Khanna, Dinesh N. Potvin, Robert E. McCaulley, James A. Rafalko, Joseph
description	t‐Boc protected Deep‐UV transparent polymers with photoacid generators have been widely investigated as potential positive deep‐UV resist systems. However, utility of these systems is seriously handicapped by environmental contaminants leading to an insoluble “surface skin” formation. Only with a specially controlled environment or by use of an “overcoat” material is the performance of these systems acceptable. We have investigated a series of t‐Boc protected poly(styrene‐maleimide) copolymers and poly(hydroxy styrene) polymers with onium‐salts. Upon incorporation of a special class of organic additive, the surface effects inherent to these positive deep‐UV systems are significantly reduced thereby avoiding any extraneous precaution of protecting the resist surface from a typical manufacturing environment. We evaluated these t‐Boc polymer/onium‐salt systems with different additives under a varied set of processing conditions. In addition, plausible structure‐activity relationship of these additives in controlling the surface effects is presented.
doi_str_mv	10.1002/pen.760322105
format	Article
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However, utility of these systems is seriously handicapped by environmental contaminants leading to an insoluble “surface skin” formation. Only with a specially controlled environment or by use of an “overcoat” material is the performance of these systems acceptable. We have investigated a series of t‐Boc protected poly(styrene‐maleimide) copolymers and poly(hydroxy styrene) polymers with onium‐salts. Upon incorporation of a special class of organic additive, the surface effects inherent to these positive deep‐UV systems are significantly reduced thereby avoiding any extraneous precaution of protecting the resist surface from a typical manufacturing environment. We evaluated these t‐Boc polymer/onium‐salt systems with different additives under a varied set of processing conditions. 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source	Wiley Online Library Journals Frontfile Complete
subjects	Applied sciences Exact sciences and technology Physicochemistry of polymers Polymers and radiations Properties and characterization
title	A novel chemically amplified positive deep UV photoresist with significantly reduced sensitivity to environmental contamination
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