A photosensitive resin composition comprises: a resin having a phenolic hydroxyl group; a photosensitive acid generator; a compound having at least one selected from the group consisting of an aromatic ring, a heterocycle and an alicycle, and at least one selected from the group consisting of a methylol group and an alkoxyalkyl group; and an aliphatic compound having two or more functional groups, the functional groups being at least one functional group selected from the group consisting of an acryloyloxy group, a methacryloyloxy group, a glycidyloxy group, an oxetanyl alkyl ether group, a vinyl ether group and a hydroxyl group, wherein the photosensitive acid generator is a sulfonium salt containing an anion having at least one skeleton selected from the group consisting of a tetraphenylborate skeleton, an alkylsulfonate skeleton having 1 to 20 carbon atoms, a phenylsulfonate skeleton and a 10-camphorsulfonate skeleton.

A mold includes a mold base material and a rugged structure located at a main surface of the mold base material. The rugged structure includes a plurality of linearly shaped projected portions for forming wiring, and a circularly shaped projected portion for forming a pad portion, in which a light-shielding layer is provided at a top portion flat surface of the circularly shaped projected portion for forming the pad portion.

The resin composition of the present invention is a resin composition containing: a bismaleimide compound (A) containing a constituent unit represented by the following formula (1) and maleimide groups at both ends of the molecular chain; a compound (B) containing one or more carboxy groups; and a photo initiator (C).

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In the formula (1), R.sub.1 represents a linear or branched alkylene group having 1 to 16 carbon atoms, or a linear or branched alkenylene group having 2 to 16 carbon atoms. R.sub.2 represents a linear or branched alkylene group having 1 to 16 carbon atoms, or a linear or branched alkenylene group having 2 to 16 carbon atoms. Each R.sub.3 independently represents a hydrogen atom, a linear or branched alkyl group having 1 to 16 carbon atoms, or a linear or branched alkenyl group having 2 to 16 carbon atoms. Each n independently represents an integer of 1 to 10.

Disclosed are an implantable flexible neural microelectrode comb, and a preparation method and implantation method therefor. The flexible neural microelectrode comb is mainly composed of a flexible substrate layer (1), a flexible insulation layer (2), and a metal connection wire layer (3) arranged between the flexible substrate layer (1) and the flexible insulation layer (2); the flexible neural microelectrode comb comprises a filament structure (4), a mesh structure (5), a plane structure (6) and a bonding pad area (7) connected in sequence; electrode sites (8) are arranged on the filament structure (4); bonding pads are arranged on the bonding pad area (7); the metal connection wire layer (3) is composed of metal connection wires connecting the electrode sites (8) and the bonding pads; and the flexible insulation layer (2) is not arranged on the surfaces of the electrode sites (8) and the bonding pads. The prepared flexible neural microelectrode comb has a structure gradually changing from a filament to a mesh to a plane structure, thus improving mechanical stability during a deformation process. The mechanical properties of the implantable flexible neural microelectrode comb match brain tissue, the implantation footprint is small, an inflammatory response of the brain is avoided, and electrophysiological signals in the brain can be stably tracked and measured in a multi-site manner for a long time.

A mask structure and a manufacturing method of the mask structure are provided. The mask structure includes a transparent substrate, a patterned metal layer, and a plurality of microlens structures. The patterned metal layer is disposed on the transparent substrate and exposing a portion of the transparent substrate. The microlens structures are disposed on the transparent substrate exposed by a portion of the patterned metal layer and being in contact with the portion of the patterned metal layer.

A circuit board includes a substrate, a first circuit layer, a second circuit layer, and a third circuit layer. The substrate includes a base layer, a first metal layer formed on the base layer, and a seed layer formed on the first metal layer. The first circuit layer is located on the substrate and includes the first metal layer and a signal layer formed on a surface of the first metal layer. The second circuit layer is coupled to the first circuit layer and includes the first metal layer, the seed layer, and a connection pillar formed on a surface of the first metal layer and the seed layer. The third circuit layer is coupled to the second circuit layer and includes the seed layer and a coil formed on a surface of the seed layer.

A package substrate and a manufacturing method thereof are disclosed. The method includes: providing an inner substrate; processing an adhesive photosensitive material on a surface of a first side of the inner substrate to obtain an adhesive first insulating dielectric layer; mounting a component on the first insulating dielectric layer; and processing a photosensitive packaging material on the first side of the inner substrate to obtain a second insulating dielectric layer, where the second insulating dielectric layer covers the component.

A printed wiring board includes a first conductor layer, an insulating layer formed on the first conductor layer, a second conductor layer formed on the insulating layer, and a via conductor formed in the insulating layer such that the via conductor is connecting the first and second conductor layers. The insulating layer has opening exposing portion of the first conductor layer such that the via conductor is formed in the opening, the second conductor layer and via conductor are formed such that the second conductor layer and via conductor include a seed layer and an electrolytic plating layer on the seed layer, and the insulating layer includes resin and inorganic particles dispersed in the resin such that the particles include first particles forming inner wall surface in the opening and second particles embedded in the insulating layer and the first particles have shapes different from shapes of the second particles.

A method of making a printed circuit board includes a step of providing a double-sided plate that is an insulating substrate having conductive layers on respective surfaces thereof, a first coating step of coating a first surface of the double-sided plate with a first photosensitive resin film, a second coating step of coating a second surface of the double-sided plate with a second photosensitive resin film, a first exposure step of exposing the photosensitive resin film coating the first surface after the first and second coating steps, and a second exposure step of exposing the photosensitive resin film coating the second surface after the first exposure step, wherein a maximum depth of a depression in an outermost surface of the second photosensitive resin film used in the second exposure step is less than 1.0 μm.

There is provided a photosensitive resin composition that contains (A) a photopolymerizable compound having an ethylenically unsaturated group, (X) organic particles, and (B) a photopolymerization initiator, in which the photopolymerizable compound (A) having an ethylenically unsaturated group contains (A1) a photopolymerizable compound having an acidic substituent and an alicyclic structure together with an ethylenically unsaturated group. There is provided a photosensitive resin film and a photosensitive resin film for interlayer insulating layer, each of which contains the photosensitive resin composition. There is provided a multilayer printed wiring board and a semiconductor package. There is further provided a method for producing the multilayer printed wiring board.