SU1762425A1 - Process of deposition of current-conducting coat of sulfide of copper on dielectric substrate - Google Patents

Abstract

Use: electronic industry, instrumentation and computer technology for the metallization of the holes of printed circuits based on single and double sided foil fiberglass and other dielectrics. SUMMARY OF THE INVENTION: A glass fiber textolite dielectric substrate is successively treated in a solution of monovalent copper salt, in a solution of a structure-forming substance and in an alkali metal polysulfide solution, with a 0.0025-0.025 M solution of potassium persulfate or iodine or potassium nitrite being used as a structure-forming substance. The method provides an increase in the electrical conductivity of the coating. 1 tab

Description

The invention relates to the modification of the properties of dielectric materials and can be used in the electronics industry, instrument engineering and computer technology for the metallization of the holes of printed circuits based on single- and double-sided foil fiberglass and other dielectrics.

The conductive copper sulphide coating is widely used in industry as a sublayer for decorative galvanic metallization of plastics. In this case, the most important characteristics of the sulfide coating is its electrical conductivity and compactness.

However, the known methods for applying the electrically conductive coatings of copper sulfide, when used in the metallization processes of the holes of printed circuits, do not provide complete coverage of the through holes.

holes due to their lack of electrical conductivity.

The closest to the technical essence of the invention is a method for producing an electrically conductive coating, according to which the surface of a dielectric after treatment with monovalent copper is further treated with an aqueous solution of one-, two-, or three-substituted alkali metal phosphate or ammonium, and then a solution of polysulfides. The treatment in the Phosphate solution allows to obtain a smooth, homogeneous electrically conductive coating and thereby to ensure a high decorative effect of electroplating. However, the coating obtained by this method does not completely cover the openings of printed circuits during the deposition of electroplating.

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The aim of the invention is to improve the coatings of the openings of printed circuits by increasing the conductivity of the coating.

The goal is achieved by the fact that in the method of producing an electrically conductive coating, which includes treatment in a solution of monovalent copper, then in an aqueous solution of a structure-forming substance, washing and processing in a solution of polysulfides, aqueous 0.0025-0.025 M potassium persulfate solution is used as a structure-forming substance. , or iodine, or potassium nitrite.

The invention is implemented as follows: 1) samples are treated for 30 seconds in a solution of the composition (M): CuSCMSHaQ — 0.4 ammonia — 0.8 (up to, 8) and metallic copper in the form of a plate (-4 dm / l); 2) for 5-30 s they are dipped into an aqueous 0.0025-0.025 M solution of potassium persulfate, or iodine, or potassium nitrite and washed with water; 3) for 15-30 seconds, they are treated in a 0.005 M solution of sodium polysulfide and washed with water. The operations are carried out at room temperature and are repeated 2 times.

Processing with a solution of structure-homing vesh helps to protect the electrical conductivity of the copper sulphide coating, which makes it possible to achieve complete coverage of the openings of printed circuits by electroplating.

The positive effect of the treatment in the pgstvioha structure-forming substances, apparently, is associated with the formation of a thicker and more compact (high crystallinity) film, which has better electrical conductivity compared to the film of the prototype.

The electrical conductivity was estimated from the electrical resistance of the coating, bounded by a square, the side of which was equal to 1 cts, and measured on the flat surface of the fiberglass laminate.

The amount of precipitated copper sulfide was estimated by the amount of sulfur on the surface of the dielectric, which was measured by the method of radioactive indicators using the S isotope.

The results of experimental verification of the claimed invention are presented in the table. They indicate the following.

1. Surface treatment dielectric

in solutions of the proposed structure-forming substances, increases the electrical conductivity of the coating, as compared with the prototype, by up to 3-6 times.

2. The proposed method for producing an electrically conductive coating provides complete coverage of the openings of printed circuits.

3. A positive effect is achieved only at certain concentrations,

beyond which the coating does not differ in increased electrical conductivity.

4. The electroconductive coating obtained by the proposed method is

thicker than the prototype, as indicated by radiometric measurement data, and more uniform, as indicated by the smaller scatter of these data.

thirty

Claims (1)

Formula invented s A method for producing an electrically conductive sulfide coating of med. /, On a dielectric substrate, comprising sequential processing of the substrate in a salt solution of a monovalent medm and an aqueous solution of a structure-forming substance, washing with water and treatment with an alkali metal polysulfide solution, and with that. that in order to improve the quality of the coating by increasing its electrical conductivity, as a structure-forming substance, 0.0025-0.025 M, a solution of potassium persulfate or iodine or potassium nitrite is used.