Provided is a photosensitive resin composition containing; (A) a polymer having an acidic functional group or a substituent derived therefrom; (B) a photoreactive compound; (C) a solvent; and (D) a nitrogen-containing aromatic compound represented by the following general formula (1). ##STR00001##

Provided is a photosensitive resin composition containing; (A) a polymer having an acidic functional group or a substituent derived therefrom; (B) a photoreactive compound; (C) a solvent; and (D) a nitrogen-containing aromatic compound represented by the following general formula (1). ##STR00001##

A process for manufacturing a cross-linked product has improved charring and thermal stability properties in which there is cross-linking of a benzoxazine monomer.

A process for manufacturing a cross-linked product has improved charring and thermal stability properties in which there is cross-linking of a benzoxazine monomer.

A composition for a sacrificial film includes a polymer, a solvent, and a plasticize compound having an aromatic ring structure. A package includes a die, through insulating vias (TIV), an encapsulant, and a redistribution structure. The die includes a sensing component. The TIVs surround the die. The encapsulant laterally encapsulates the die and the TIVs. The redistribution structure is over the die, the TIVs, and the encapsulant. The redistribution structure has an opening exposing the sensing component of the die. A top surface of the redistribution structure is slanted.

A composition for a sacrificial film includes a polymer, a solvent, and a plasticize compound having an aromatic ring structure. A package includes a die, through insulating vias (TIV), an encapsulant, and a redistribution structure. The die includes a sensing component. The TIVs surround the die. The encapsulant laterally encapsulates the die and the TIVs. The redistribution structure is over the die, the TIVs, and the encapsulant. The redistribution structure has an opening exposing the sensing component of the die. A top surface of the redistribution structure is slanted.

Provided is a resin composition which makes it possible to improve the resistance to a flux to be used in soldering and the resistance to reflow, and which, when used as a photosensitive resin composition, can be cured into a film capable of being imparted with such thick film processability that the film can be processed with high sensitivity even when the thickness of the film is as high as 15 m or more. A resin composition comprising (A) a resin having a structural unit represented by general formula (1) and/or general formula (2), (B) a phenolic resin and (C) an antioxidant agent, wherein the phenolic resin (B) contains a structure represented by general formula (3).

Embodiments of the present disclosure provide for an ortho (o)-hydroxy-functionalized diamine, a method of making an o-hydroxy-functionalized diamine, an o-hydroxy-functionalized diamine-based polyimide, a method of making an o-hydroxy-functionalized diamine imide, methods of gas separation, and the like.

Embodiments of the present disclosure provide for an ortho (o)-hydroxy-functionalized diamine, a method of making an o-hydroxy-functionalized diamine, an o-hydroxy-functionalized diamine-based polyimide, a method of making an o-hydroxy-functionalized diamine imide, methods of gas separation, and the like.

A thermally conductive type polyimide substrate is provided. The substrate comprises at least one insulating layer having a metal layer on a single side or both sides thereof. The material of the insulating layer is a thermally conductive type photosensitive resin having a thermal conductivity of 0.4 to 2, and the thermally conductive type photosensitive resin includes the following components: (a) a photosensitive polyimide, (b) an inorganic filler, and (c) a silica solution. The photosensitive polyimide accounts for 50 to 70% of a total weight of a solid composition of the thermally conductive type photosensitive resin. The inorganic filler accounts for 20-30% of the total weight of the solid composition of the thermally conductive type photosensitive resin, and has a particle size between 40 nm and 5 m. The silica solution comprises silica particles polymerized by a sol-gel process, and the silica particles have a particle size between 10 nm and 15 nm and account for 5 to 30% of the total weight of the solid composition of the thermally conductive type photosensitive resin.