Adhesive for electroless plating, feedstock composition for...

Stock material or miscellaneous articles – Structurally defined web or sheet – Discontinuous or differential coating – impregnation or bond

Reexamination Certificate

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C428S209000, C428S901000, C174S259000

Reexamination Certificate

active

06261671

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to an adhesive for electroless plating, material composites for preparing the adhesive for electroless plating and a printed circuit board, and more particularly to an adhesive for electroless plating suitable for the formation of fine pattern capable of ensuring an insulation reliability between lines while maintaining a practical peel strength in a semi-additive process or guaranteeing an insulation reliability between lines even at high temperature and high humidity conditions while maintaining a practical peel strength in a full-additive process, material composition for preparing the adhesive, and a printed circuit board using the adhesive.
2. Discussion of Background Information
Recently, so-called build-up multilayer circuit board is noticed from a demand for high densification of multilayer circuit boards. This build-up multilayer circuit board produced by a method as described, for example, in JP-B-4-55555. That is, an interlaminar resin insulating agent composed of a photosensitive adhesive for electroless plating is applied onto a core substrate, dried, exposed to a light and developed to form an interlaminar insulating resin layer having openings for viaholes, and then the surface of the interlaminar insulating resin layer is roughened by treating with an oxidizing agent or the like, and a plating resist is formed on the roughened surface by subjecting a photosensitive resin layer to light exposure and development treatments, and thereafter a non-forming portion of the plating resist is subjected to an electroless plating to form a conductor circuit pattern inclusive of viaholes, and next such steps are repeated plural times to obtain a multilayered build-up circuit board through an additive process.
In the build-up circuit board produced by such a method, the adhesive for electroless plating obtained by dispersing soluble cured resin particles consisting of rough particles having an average particle size of 2-10 &mgr;m and fine particles having an average particle size of not more than 2 m into a heat-resistant resin matrix hardly soluble through a curing treatment as disclosed in JP-A-63-158156 and JP-A-2-188992 (U.S. Pat. Nos. 5,500,321, and 5,519,177) is used in the interlaminar insulating resin layer.
Furthermore, JP-A-61-276875 (U.S. Pat. Nos. 4,752,499, and 5,021,472) discloses an adhesive for electroless plating obtained by dispersing soluble cured epoxy resin powder ground into an average particle size of 1.6 &mgr;m in a hardly soluble heat-resistant resin matrix.
The interlaminar insulating resin layer formed on the substrate using the above adhesive is roughened on its surface by dissolving and removing the heat-resistant resin particles existing in the surface area and is excellent in the adhesion property to a conductor circuit formed on the roughened surface through the plating resist.
However, the build-up circuit board retaining the plating resist as a permanent resist such as the circuit board produced by the full-additive process is bad in the adhesion property at the boundary between the permanent resist and the conductor circuit. Therefore, this build-up circuit board has a problem that when IC chip is mounted on the board, cracks are generated in the interlaminar insulating resin layer starting from a boundary between the plating resist and the conductor circuit resulted from a difference of thermal expansion coefficient.
On the contrary, a method of removing a plating resist and subjecting at least a side face of a conductor circuit to a roughening treatment to improve the adhesion property to an interlaminar insulating resin layer formed on the conductor circuit has hitherto been proposed as a technique capable of obstructing cracks created on the interlaminar insulating resin layer. As a method of producing a circuit board advantageously utilizing this method, mention may be made of the semi-additive process.
In the semi-additive process, the surface of the interlaminar insulating resin layer is first roughened and an electroless plated film is thinly formed over a full roughened surface and then a plating resist is formed on a non-conductor portion of the electroless plated film and further an electrolytic plated film is thickly formed on a no-resist forming portion and thereafter the plating resist and the electroless plated film located below the plating resist are removed to form a conductor circuit pattern.
However, the build-up circuit board produced through the semi-additive process using the above adhesive has a problem that the electroless plated film remains in a depression (anchor) of the roughened surface of the adhesive layer located under the resist to lower the insulation reliability between the lines.
And also, the build-up circuit board produced through the full-additive process using the above adhesive has a problem that the value of insulation resistance between the conductor circuits lowers under high temperature and high humidity conditions.
Moreover, the circuit boards produced through the full-additive process and semi-additive process have a problem that the interlaminar insulation is broken if the adhesive contains relatively large heat-resistant resin particles having an average particle size of not less than 2 &mgr;m.
The invention proposes a technique for solving problems inherent to the circuit board produced through the above full-additive process or semi-additive process. The present invention provides an adhesive for electroless plating which is advantageous to ensure insulation reliabilities between lines and between layers while maintaining a practical peel strength. The present invention also provides a printed circuit board having an excellent reliability by using the above adhesive for electroless plating.
On the other hand, the above-mentioned adhesive for electroless plating, in case the printed circuit boards are industrially massproduced, require to be preserved from the beginning of manufacturing up to the actual process of coating on the substrate.
For this reason, the adhesive for the electroless plating has drawbacks that a curing gradually proceeds or viscosity becomes high due to gelation during the preservation.
The present invention further provides an adhesive for the electroless plating which is capable of supressing the curing of the adhesive which is generated inevitably in the course of preservation, and to provide a method of manufacturing the printed circuit board using thus obtained adhesive for the electroless plating.
SUMMARY OF THE INVENTION
The inventor has made various studies in order to achieve the present invention and considered that the occurrence of the above problems results from the fact that the average particle size of the heat-resistant resin particles to be dissolved and removed is too large and found the following knowledge.
That is, the interlaminar insulating resin layer consisting of the above adhesive obtained by dispersing soluble resin particles comprised of rough particles having an average particle size of 2-10 &mgr;m and fine particles having an average particle size of not more than 2 &mgr;m is that a depth of a depression in a roughened surface formed on the surface of this layer is about 10 &mgr;m (e.g. Example 1 of JP-A-7-34048 (U.S. Pat. No. 5,519,177)). Therefore, it is considered that since the electroless plated film is formed in the depth portion of the depression through the semi-additive process, it can not be removed completely and is retained to degrade the insulating property between lines. On the other hand, in the full-additive process, the surface area becomes large as the depression in the roughened surface becomes deep, and a great number of palladium being a catalyst nucleus of the electroless plated film beneath the plating resist between lines. As a result, it is considered that the palladium reacts with chlorine ion or the like in the heat-resistant resin under conditions of high temperature and high humidity to form a conductive compound to thereby lower the

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