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Volumn 59, Issue 4, 2010, Pages 517-522
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Nanometer-thick patterned conductive films prepared through the self-synthesis of polythiophene derivatives
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Author keywords
In situ polymerization; Lithography; Photoresist; UV curable
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Indexed keywords
CAPITAL COSTS;
ENVIRONMENTAL STABILITY;
EPOXY ACRYLATE;
HIGH CONDUCTIVITY;
HYDROXYETHYL METHACRYLATE;
HYDROXYL GROUPS;
IN SITU POLYMERIZATION;
IN-SITU;
INDIUM TIN OXIDE;
INORGANIC MATERIALS;
INTERFACIAL ADHESIONS;
METAL NANOPARTICLES;
OPTICAL TRANSPARENCY;
ORGANIC CONDUCTING POLYMERS;
ORGANIC LAYERS;
PATTERNED FILMS;
PATTERNED PHOTORESISTS;
PET FILMS;
PHOTO-INITIATOR;
POLYMERIZATION REACTION;
POLYTHIOPHENE DERIVATIVES;
PRODUCTION COST;
SEMICONDUCTOR FILMS;
TOUCH PANELS;
TRANSPARENT CONDUCTIVE FILMS;
TRIPROPYLENE GLYCOL DIACRYLATE;
URETHANE LINKAGE;
UV CURABLE;
CONDUCTING POLYMERS;
CURING;
ETHYLENE;
FILM PREPARATION;
FLEXIBLE ELECTRONICS;
GLYCOLS;
LITHOGRAPHY;
METHANOL;
MONOMERS;
NANOPARTICLES;
ORGANIC CONDUCTORS;
ORGANIC POLYMERS;
PHOTORESISTS;
POLYETHYLENE TEREPHTHALATES;
POLYMERIZATION;
RESINS;
SYNTHESIS (CHEMICAL);
TIN;
TITANIUM COMPOUNDS;
TRANSPARENCY;
CONDUCTIVE FILMS;
ADHESION;
ELECTRONICS;
EPOXY RESIN;
FILM;
INTERFACIAL PROPERTY;
POLYETHYLENE TEREPHTHALATE;
POLYMER;
POLYMERIZATION;
SYNTHESIS;
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EID: 77953268275
PISSN: 09598103
EISSN: 10970126
Source Type: Journal
DOI: 10.1002/pi.2730 Document Type: Article |
Times cited : (7)
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References (20)
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