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Metal-film-coated material and process for producing the same, metallic-pattern-bearing material and process for producing the same, composition for polymer layer formation, nitrile group-containing polymer and method of synthesizing the same, composition containing nitrile group-containing polymer, and laminate

a technology which is applied in the direction of metallic material coating process, composition for polymer layer formation, and composition containing nitrile group-containing polymer, etc., can solve the problems of poor high frequency properties, deformation of metal film or substrate, and undesirable influence of temperature or humidity on plating film, etc., to achieve excellent insulation reliability, less fluctuation, and excellent adhesiveness

Inactive Publication Date: 2010-01-07
FUJIFILM CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0093]According to the invention, a metal film-coated material having a metal film with excellent adhesiveness and less fluctuation due to temperature change in the adhesive force, and a process for producing the same can be provided.
[0094]According to the invention, a metallic pattern-bearing material having excellent insulation reliability in the area where no metallic pattern is formed, and a process for producing the same can be further provided.
[0095]According to the invention, a composition for forming a polymer layer, the polymer layer having low water absorbability and high hydrophobicity, and having excellent adsorbability to a plating catalyst or a precursor thereof, can be provided.
[0096]Further, according to the invention, a novel polymer having sufficient adsorbability to the metal of a plating catalyst or the like and has excellent polymerizability, a method of synthesizing the same, a composition using the novel polymer, and a laminate using the novel polymer, can be provided.

Problems solved by technology

However, this has been problematic in that roughness at a substrate interface of the metallic pattern is a cause of poor high frequency properties when the metallic pattern is used as metallic wiring.
However, since in this method the graft polymer has a polar group, absorption or desorption of moisture tends to occur according to changes in temperature or humidity, and as a result, the metal film or substrate tends to be deformed.
In general, a carboxylic acid group, a hydroxyl group, an ether group and the like are known as groups capable of adsorbing a plating catalyst, but since these functional groups have high hydrophilicity and are prone to hold moisture, ions or the like, there are concerns that their use may result in an undesirable level of influence of temperature or humidity on a plating film, or deformation of the plating film.
However, in this synthesis method, anionic polymerization proceeds even with a trace amount of moisture, and handling is difficult.
However, since the above macromonomer has few polymerizable groups in the polymer, curability (polymerizability) is low, and since the cyano group content in the polymer is low, there are concerns about adsorbability with respect to a plating catalyst.

Method used

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  • Metal-film-coated material and process for producing the same, metallic-pattern-bearing material and process for producing the same, composition for polymer layer formation, nitrile group-containing polymer and method of synthesizing the same, composition containing nitrile group-containing polymer, and laminate
  • Metal-film-coated material and process for producing the same, metallic-pattern-bearing material and process for producing the same, composition for polymer layer formation, nitrile group-containing polymer and method of synthesizing the same, composition containing nitrile group-containing polymer, and laminate
  • Metal-film-coated material and process for producing the same, metallic-pattern-bearing material and process for producing the same, composition for polymer layer formation, nitrile group-containing polymer and method of synthesizing the same, composition containing nitrile group-containing polymer, and laminate

Examples

Experimental program
Comparison scheme
Effect test

example 1-1

Preparation of Substrate

[0474]On a glass epoxy substrate, an epoxy insulating film (trade name: GX-13, manufactured by Ajinomoto Fine-Techno Co., Inc., film thickness: 45 μm) was adhered by heating and pressing with a vacuum laminator at a pressure of 0.2 MPa under the conditions of 100° C. to 110° C., as an electrically insulating layer, and thus a base material was obtained.

[0475]Subsequently, an insulative composition containing a polymerization initiator, which had the following formulation, was applied on the base material by a spin coating method so that a thickness of the coated film became 3 micrometers, left to stand for 1 hour at 30° C. to remove the solvent, and dried at 140° C. for 30 minutes, to form a polymerization initiation layer (insulative polymerization initiation layer).

[0476]Insulative Composition Containing Polymerization Initiator

[0477]20 parts by mass of a bisphenol A epoxy resin (trade name: EPIKOTE 828, manufactured by Yuka Shell Epoxy Co., Ltd., epoxy equ...

example 1-2

[0512]A metal film-coated material was produced as follows using the substrate A1, which has a polymerization initiation layer formed thereon and was produced in Example 1-1.

[0513]Formation of Polymer Layer

Synthesis of Polymer B Having Polymerizable Group and Interactive Group

[0514]First, a polymer B having a polymerizable group and an interactive group was synthesized as follows.

[0515]42 g of N,N-dimethylacetamide was placed in a 1000-ml three-necked flask, and was heated to 75° C. under a nitrogen gas stream. To this, a solution of 5.6 g of 2-hydroxyethyl acrylate (commercially available product, manufactured by Tokyo Chemical Industry Co., Ltd.), 36.1 g of 2-(2-ethoxyethoxy)ethyl acrylate, and 0.55 g of V-601 (described above) in 42 g of N,N-dimethylacetamide was added dropwise over 2.5 hours. After completion of the dropwise addition, the mixture was heated to 80° C., and was further stirred for 3 hours. Thereafter, the reaction solution was cooled to room temperature.

[0516]To t...

example 1-3

Preparation of Substrate

[0535]On a base material formed from a polyimide film (trade name: Kapton 500H, manufactured by Toray DuPont Co., Ltd.), a polymerization initiation layer coating solution as described below was applied using a rod bar No. 18, and the film was subjected to drying and crosslinking reaction at 110° C. for 10 minutes. The film thickness of the obtained polymerization initiation layer was 9.3 μm. The substrate thus obtained was designated as substrate B1. The surface roughness (Rz) of the resulting substrate B1 was 0.3 μm.

[0536]Polymerization Initiation Layer Coating Solution

Polymerization initiating polymer P described above0.4 gTDI (tolylene-2,4-diisocyanate)0.16 g Methyl ethyl ketone (MEK)1.6 g

[0537]Formation of Polymer layer

Preparation of Coating Solution

[0538]10.5 parts by mass of the polymer A having a polymerizable group and an interactive group, 73.3 parts by mass of methyl ethyl ketone (MEK), 33.9 parts by mass of methanol, and 4.8 parts by mass of N,N-d...

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PUM

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Abstract

A process for producing a metal film-coated material, the process including: (a1) forming, on a substrate, a polymer layer formed from a polymer which has a functional group capable of interacting with a plating catalyst or a precursor thereof, and is directly chemically bonded to the substrate; (a2) providing a plating catalyst or a precursor thereof to the polymer layer; and (a3) performing plating with respect to the plating catalyst or a precursor thereof. The polymer layer satisfies all of specific requirements regarding the saturated water absorption coefficient, the saturated water absorption coefficient, the water absorption coefficient, and the surface contact angle of the polymer layer.

Description

TECHNICAL FIELD [0001]The present invention relates to a process for producing a metal film-coated material, a metal film-coated material, a process for producing a metallic pattern-bearing material, a metallic pattern-bearing material, and a composition for polymer layer formation. The invention further relates to a novel polymer containing a nitrile group and a polymerizable group, a method of synthesizing the polymer, a composition containing the polymer, and a laminate formed by using the composition.BACKGROUND ART[0002]Conventionally, metallic wiring boards in which wiring based on a metallic pattern is formed on the surface of an insulative substrate have been widely used for electronic parts and semiconductor devices.[0003]A “subtractive method” is mainly used for producing such a metallic pattern-bearing material. The subtractive method includes providing a photosensitive layer, which is sensitized by irradiation with actinic rays, on a metal film formed on a substrate surfa...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): B05D3/10B32B15/09
CPCC23C18/31C23C18/405H05K3/387H05K2203/121B32B27/08C08F22/32C23C18/2086C08F220/36C08F220/50C09D133/18C23C18/1603C23C18/1653C23C18/30C08F220/28Y10T428/31551Y10T428/31786Y10T428/31855Y10T428/31681C08F220/283C08F220/34B32B15/08C08F291/00C08L57/00C23C18/20
Inventor KANO, TAKEYOSHINAGASAKI, HIDEOSATO, MASATAKA
Owner FUJIFILM CORP
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