A transfer belt includes a resin base material layer and a surface layer, wherein the surface layer contains a polyamide-imide resin A, a siloxane-modified imide resin B, and a conductive material.

To provide an alkaline developable negative-type photosensitive resin composition from which a cured film that has a high-resolution and low-taper pattern shape and that are excellent in heat resistance and light blocking property can be obtained. A negative-type photosensitive resin composition is characterized by containing an (A1) first resin, a (A2) second resin, a (C) photopolymerization initiator, and a (D) coloring agent, wherein the (A1) first resin is an (A1-1) polyimide and/or an (A1-2) polybenzo-oxazole, and wherein the (A2) second resin is one or more species selected from a (A2-1) polyimide precursor, a (A2-2) polybenzo-oxazole precursor, a (A2-3) polysiloxane, a (A2-4) cardo based resin, and an (A2-5) acrylic resin, and wherein a content ratio of the (A1) first resin in a total of 100 mass % of the (A1) first resin and the (A2) second resin is within the range of 25 to 90 mass %.

Provided is a detachable layer-forming composition which, for example, contains an organic solvent and a polyamic acid, both ends of which are derived from a diamine and sealed with an aromatic dicarboxylic acid, such as the polyamic acid represented by this formula.

##STR00001##

(In the formula, X represents a tetravalent aromatic group, Y represents a divalent aromatic group, R.sup.1-R.sup.4 each independently represent a hydrogen atom, a C1-10 alkyl group, or a C6-20 aryl group, and m is a natural number.)

An object of the invention is to provide a cured film which is high in sensitivity, capable of forming a pattern in a low-taper shape, capable of the change in pattern opening width between before and after thermal curing, an excellent in light-blocking property, and a photosensitive resin composition that forms the film. The photosensitive resin composition contains an (A) alkali-soluble resin, a (C) photosensitive agent, a (Da) black colorant, and a (F) a cross-linking agent, where the (A) alkali-soluble resin contains a (A1) first resin including one or more selected from the group consisting of: a specific (A1-1) polyimide; a (A1-2) polyimide precursor; a (A1-3) polybenzoxazole; and a (A1-4) polybenzoxazole precursor, and contains a structural unit having a fluorine atom at a specific ratio, the content ratio of the (Da) black colorant is a specific ratio, and the (F) cross-linking agent contains an epoxy compound that has a specific structure, and/or an epoxy resin that has a specific structural unit.

A resin composition including: (A) a polyimide resin containing 60 mol % or more of a diamine residue having a structure represented by General Formula (1) below in all diamine residues; (B) a thermosetting resin; and (C) a thermally conductive filler, wherein the resin composition contains 60 parts by volume or more of the thermally conductive filler (C) in 100 parts by volume of a total of the polyimide resin (A), the thermosetting resin (B), and the thermally conductive filler (C). Provided is a resin composition capable of providing a sheet that is excellent in heat resistance and thermal conductivity, has a low elastic modulus, and is excellent in thermal responsiveness. ##STR00001##

An LED filament and an LED light bulb applying the same are provided. The LED filament includes a conductive section including a conductor; two or more LED sections connected to each other by the conductive section, and each of the LED sections includes two or more LED chips electrically connected to each other through a wire; two electrodes, electrically connected to the LED section; and a light conversion layer with a top layer and a base layer, covering the LED sections, the conductive section and the two electrodes, and a part of each of the two electrodes is exposed respectively. The LED filament is supplied with electric power no more than 8 W, when the LED filament is lit, at least 4 lm of white light is emitted per millimeter of filament length.

The resin composition of the present invention contains a maleimide compound (A) represented by the following formula (1); and a cyanate compound (B).

##STR00001##

wherein R each independently represents an unsubstituted or substituted monovalent hydrocarbon group having 1 to 12 carbon atoms, a proportion of R representing a methyl group, among all R, is 50 mol % or more, and n represents an integer of 0 to 2.

The resin composition of the present invention comprises a prepolymer (P) and a thermosetting component, the prepolymer (P) being obtained by polymerizing an alkenyl-substituted nadimide (A), a maleimide compound (B), and an amino-modified silicone (C).

The resin composition of the present invention comprises an alkenyl-substituted nadimide (A), a maleimide compound (B), and an amino-modified silicone (C).

A method for temporary bonding workpiece includes steps as follows. A combining step is performed, wherein an adhesive layer is formed on a surface of at least one substrate and/or at least one workpiece. A bonding step is performed, wherein the substrate and the workpiece are bonded by the adhesive layer. A processing step is performed, wherein the workpiece is processed. A debonding step is performed, wherein the adhesive layer is irradiated with a laser so as to separate the workpiece from the substrate. The adhesive layer is formed by an adhesive, the adhesive includes a polymer and a light absorbing material, a content of the polymer in a solid content of the adhesive is in a range of 50 wt % to 98 wt %, a content of the light absorbing material in the solid content of the adhesive is in a range of 2 wt % to 50 wt %.