A resin composition suppresses unintended curing of a 2-methylene-1,3-dicarbonyl compound in the presence of conductive particles to facilitate the production of a paste including the 2-methylene-1,3-dicarbonyl compound for electronic components. The resin composition includes (a) at least one 2-methylene-1,3-dicarbonyl compound, (b) at least one type of conductive particles and (c) at least one monocarboxylic acid with a number of carbon atoms of 3 or more.

Provided are: a composition for an organic light emitting diode comprising an indole-based photocurable monomer, a non-indole-based photocurable monomer, and an initiator, and an organic light emitting display manufactured therefrom.

Provided are: a composition for an organic light emitting diode comprising an indole-based photocurable monomer, a non-indole-based photocurable monomer, and an initiator, and an organic light emitting display manufactured therefrom.

Provided are: a composition for an organic light emitting diode comprising an indole-based photocurable monomer, a non-indole-based photocurable monomer, and an initiator, and an organic light emitting display manufactured therefrom.

Provided are: a composition for an organic light emitting diode comprising an indole-based photocurable monomer, a non-indole-based photocurable monomer, and an initiator, and an organic light emitting display manufactured therefrom.

Disclosed herein is a ferrule assembly. The ferrule assembly comprises a ferrule having an inner diameter surface. The ferrule assembly also comprises an adhesion promotor coating composition comprising an amine functionality, a glycidyl functionality, a thiol functionality, an oxirane functionality, or any combination thereof and a radical cure initiator. The ferrule assembly may further comprise an inorganic hydrolysable layer on the inner diameter surface. The ferrule assembly may also further comprise an adhesion promotor coating on the inorganic hydrolysable layer of a composition.

An object of the present invention is to provide a photocurable resin composition which is quickly cured through anionic polymerization even by irradiation with ultraviolet light from a ultraviolet light-emitting diode in the UV-A or UV-B range, the resin composition suitable for the manufacture of electronic components.

The photocurable resin composition of the present invention comprises (a) a 2-methylene-1,3-dicarbonyl compound, (b) an ionic photo base generator and (c) a photo-sensitizer. The 2-methylene-1,3-dicarbonyl compound is a compound comprising at least one specific structural unit, and the ionic photo base generator is a salt comprising specific anion (i) and cation (ii).

An object of the present invention is to provide a photocurable resin composition which is quickly cured through anionic polymerization even by irradiation with ultraviolet light from a ultraviolet light-emitting diode in the UV-A or UV-B range, the resin composition suitable for the manufacture of electronic components.

The photocurable resin composition of the present invention comprises (a) a 2-methylene-1,3-dicarbonyl compound, (b) an ionic photo base generator and (c) a photo-sensitizer. The 2-methylene-1,3-dicarbonyl compound is a compound comprising at least one specific structural unit, and the ionic photo base generator is a salt comprising specific anion (i) and cation (ii).

A liquid crystal device having higher transmittance and lower driving voltage is provided. The liquid crystal device comprises a first substrate having a first conductive layer, a second substrate having a second conductive layer, a first alignment layer and a liquid crystal layer. The first alignment layer comprises a liquid crystal alignment treatment agent and a methacryloyloxy-containing silane and is disposed on the first conductive layer of the first substrate. The liquid crystal layer comprises a liquid crystal material and a bifunctional-group resin and is disposed on the first alignment layer. The second substrate having a second conductive layer is disposed on the liquid crystal layer.

A liquid crystal device having higher transmittance and lower driving voltage is provided. The liquid crystal device comprises a first substrate having a first conductive layer, a second substrate having a second conductive layer, a first alignment layer and a liquid crystal layer. The first alignment layer comprises a liquid crystal alignment treatment agent and a methacryloyloxy-containing silane and is disposed on the first conductive layer of the first substrate. The liquid crystal layer comprises a liquid crystal material and a bifunctional-group resin and is disposed on the first alignment layer. The second substrate having a second conductive layer is disposed on the liquid crystal layer.