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Electroconductive metal paste

A technology of conductive metal and metal particles, applied in conductive materials, conductive materials, conductive adhesives, etc., can solve the problems of unsatisfactory continuity stability, conductivity deviation, weakened surface smoothness, etc.

Inactive Publication Date: 2004-02-25
HARIMA CHEM INC +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the current situation is that since the thickness and line width of the formed film are reduced along with the miniaturization of information terminals in recent years, the decrease of line pitch in printed circuits and the increase of circuit fineness in semiconductor devices, the conventional Ointments cannot meet this requirement due to the large diameter of metal powder particles
To illustrate it more concretely, as an example, assume that the thickness of the film is about several micrometers, and there are only two or three metal particles in its thickness direction. There is a relatively large deviation, so the stability of its continuity is not satisfactory
Moreover, since it is composed of a small number of particles, the roughness of the surface is affected by the shape of the metal particles, thereby weakening the smoothness of the surface

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1-1

[0105] A commercially available ultrafine silver particle dispersion (product name: individually dispersed ultrafine particle Ag1T, ULVAC CORPORATION), more specifically, a dispersion of ultrafine silver particles with an average particle diameter of 3 nm containing 35 parts by weight of ultrafine silver particles, 1 part by weight of dodecylamine (molecular weight: 185.36, boiling point: 248) as an alkylamine, and 58 parts by weight of toluene as an organic solvent. Also, to prepare the conductive metal paste, 73 parts by weight (based on 18 parts by weight of silver particles contained in the ultrafine silver particle dispersion) of silver particles having an average particle diameter of 10 μm was also used as a metal filler. A commercially available surface-treated silver powder (product name: SPN10JF, MITSUIMINING & SMELTING CO., LTD.) was used as silver particles having an average particle diameter of 10 μm.

[0106] First, the above-mentioned ultrafine silver particle di...

Embodiment 1-2

[0109] In order to prepare the conductive metal paste, use the ultrafine silver particle dispersion (Ag1T) described in embodiment 1-1, also use 73 parts by weight (18 parts by weight average particle diameter of being dispersed in the ultrafine silver dispersion is 3nm Silver particles with an average particle diameter of 1 μm are used as metal fillers. A commercially available surface-treated silver powder (product name: SPQ03S, MITSUI MINING & SMELTING CO., LTD.) was used as silver particles having an average particle diameter of 1 μm.

[0110] According to the composition and method described in Example 1-1, a paste with a total amount of 25.6 parts by weight and 18 parts by weight of ultrafine silver particles uniformly dispersed therein was firstly prepared. Then, add 73 parts by weight, the silver powder SPQ03S (MITSUI MINING & SMELTING CO., LTD.) of surface treatment (MITSUI MINING & SMELTING CO., LTD.) through the surface treatment of adding 73 parts by weight, averag...

Embodiment 2-1

[0128] A commercially available ultrafine silver particle dispersion (product name: individually dispersed ultrafine particle PERFECT SILVER, VACUUM METALLURGICAL CO., Ltd.), more specifically, a fine silver particle having an average particle diameter of 8 nm was used. A dispersion containing 100 parts by weight of fine silver particles, 15 parts by weight of dodecylamine as an alkylamine, and 75 parts by weight of terpineol as an organic solvent.

[0129] In order to prepare the conductive metal paste, 6.8 parts by weight of Me-HHPA (methylhexahydrophthalic anhydride) was added as an anhydride and 5 parts by weight of A phenolic resin (product of Gun'ei Chemical Industry Co., Ltd., PL-2211) was used as the thermosetting resin. The conductive metal paste prepared by mixing and stirring was applied on a glass substrate to a film thickness of 50 μm and a size of 10 mm in length and 20 mm in width by using a metal mask. After checking the state of the surface (occurrence of agg...

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Abstract

This invention provides a low-temperature sintering conductive paste for high density circuit printing which can form a fine circuit having good adhesive force, a smooth surface and low resistance when applied on a substrate and then baked; the conductive paste of the invention uses, as conductive media, in combination with metal fillers having an average particle diameter of 0.5 to 20 mum, ultrafine metal particles having an average particle diameter of not larger than 100 nm, which are set in the state that the surfaces thereof are coated with one compound or more having a group comprising a nitrogen, oxygen, or sulfur atom and capable of coordinate-bonding by a lone pair existing in the atom, as a group capable of coordinate-bonding to a metal element contained in the ultrafine metal particles, and are dispersed uniformly in a resin composition comprising a heat curable resin component, an organic acid anhydride or a derivative thereof or an organic acid, and one or more organic solvent; and thereby it enables low-temperature sintering of the ultrafine metal particles during a heat treatment at a low temperature.

Description

technical field [0001] The present invention relates to a conductive metal paste and a method of making the paste. More specifically, the present invention relates to a conductive metal paste for forming low-impedance fine circuits suitable for high-density digital lines on rigid or flexible printed boards, IC chips, glass boards, ceramic boards, etc., and for use in Methods such as screen printing or disperse printing to form interlayer bonds; also relates to methods of making such conductive metal pastes. technical background [0002] As a method for producing ultrafine metal particles having a very small particle diameter, or at least ultrafine metal particles having an average particle diameter of 100 nm or less, Japanese Patent Application Laid-Open No. 34211 / 1991 discloses ultrafine metal particles having a particle diameter of not more than 10 nm and In its manufacturing method, these particles are prepared by gas evaporation and dispersion in colloidal state. In ad...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B22F1/102C09J9/02H01B1/22H05K1/09
CPCH05K1/092B22F1/0062C09J9/02Y10T428/29H01B1/22B22F2998/00B22F1/102
Inventor 松叶赖重三泽嘉久后藤英之上田雅行大迫雄久小田正明斋藤记庸铃木敏洋阿部知行
Owner HARIMA CHEM INC
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