Proposed is a photosensitive resin composition including a siloxane copolymer having both a thermosetting functional group and a photocurable functional group. The composition, according to this disclosure, is capable of both thermal curing and photo-curing and thus can form a stable cured film in a flexible display process where a low-temperature process of 150° C. or less is essential.

Methods for making a B-stage thiol-cured urethane acrylate elastomeric film are provided. At least a urethane acrylate oligomer, a multifunctional thiol, and a base catalyst are combined to form a thiol terminated B-stage elastomer. The thiol terminated B-stage elastomer is exposed to an ultraviolet photoinitiator in the presence of an allyl ether terminated urethane to form the B-stage thiol-cured urethane acrylate elastomeric film. In some embodiments the B-stage thiol-cured urethane acrylate elastomeric film is used for a soft actuator application such as a fluidic elastomer actuator application or an electrostatic zipping actuator application.

Latent photoinitiator compounds are described, as well as compositions containing such compounds and their uses in photoinitiated methods for producing photoresist structured.

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Latent photoinitiator compounds are described, as well as compositions containing such compounds and their uses in photoinitiated methods for producing photoresist structured.

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The present invention is a compound represented by the following general formula (1). ##STR00001##

The present invention is a compound represented by the following general formula (1). ##STR00001##

In one preferred embodiment, polymers are provided that comprise a structure of the following Formula (I): ##STR00001##
Photoresists that comprises such polymers also are provided.

In one preferred embodiment, polymers are provided that comprise a structure of the following Formula (I): ##STR00001##
Photoresists that comprises such polymers also are provided.

A method for producing an optical waveguide by: (a) depositing a first composition: (i) a polysiloxane comprising epoxy and alkenyl groups with refractive index no greater than 1.50, (ii) a compound comprising at least one epoxy group and refractive index no greater than 1.49, and (iii) a polysiloxane having refractive index at least 1.50; (iv) a photo acid generator; (v) a hydrosilylation catalyst, (vi) an inhibitor for hydrosilylation; (b) curing by exposure to ultraviolet light; (c) removing the uncured portion to produce a patterned core layer; (d) after a time from 20 to 300 hours depositing a second composition comprising: (i) a polysiloxane comprising epoxy groups with refractive index no greater than 1.49, and (ii) a compound comprising at least two epoxy groups with a refractive index no greater than 1.49 and an alcohol having refractive index no more than 1.45 (iii) at least one photo acid generator.

A method for producing an optical waveguide by: (a) depositing a first composition: (i) a polysiloxane comprising epoxy and alkenyl groups with refractive index no greater than 1.50, (ii) a compound comprising at least one epoxy group and refractive index no greater than 1.49, and (iii) a polysiloxane having refractive index at least 1.50; (iv) a photo acid generator; (v) a hydrosilylation catalyst, (vi) an inhibitor for hydrosilylation; (b) curing by exposure to ultraviolet light; (c) removing the uncured portion to produce a patterned core layer; (d) after a time from 20 to 300 hours depositing a second composition comprising: (i) a polysiloxane comprising epoxy groups with refractive index no greater than 1.49, and (ii) a compound comprising at least two epoxy groups with a refractive index no greater than 1.49 and an alcohol having refractive index no more than 1.45 (iii) at least one photo acid generator.