Compositions – Electrically conductive or emissive compositions – Free metal containing
Reexamination Certificate
2001-08-06
2003-04-22
Kopec, Mark (Department: 1751)
Compositions
Electrically conductive or emissive compositions
Free metal containing
Reexamination Certificate
active
06551527
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a conductive paste suitable for forming a thick film conductor for an electronic component, a circuit board or the like by firing at high temperature. More particularly, the present invention relates to a conductive paste ideally used for forming internal electrodes or terminal electrodes of a multilayered ceramic electronic component such as a multilayered ceramic capacitor or a multilayered inductor.
2. Description of the Related Art
A multilayered ceramic capacitor is produced by alternately laminating unfired dielectric layers and internal electrode layers, co-firing the laminate so obtained at high temperature, and then printing on a terminal electrode at either end. In recent years, there have been strong demands to both increase the capacity and reduce the size of such capacitors, and progress is thus being made in making both the dielectric layers and the internal electrode layers thinner. Moreover, the configuration of the terminal electrodes greatly affects the properties and the external dimensions of the component, and hence making the printed configuration of the terminal electrodes uniform is also an important problem.
Moving on, with regard to the conductive pastes used for the internal electrodes and terminal electrodes, there has been a problem that the conductive powder contained therein may separate out and precipitate upon prolonged storage. In particular, in the case of a base metal paste that uses a powder of a base metal such as nickel or copper as the conductive component, binder removal must be carried out in a non-oxidizing atmosphere, and hence the organic binder, i.e. the resin component used as a thickener, cannot be included in the paste in a large quantity, and thus the solvent content must be high, resulting in separating out and precipitation (or sedimentation) of the conductive powder becoming prone to occur. Moreover, to make the electrode layers thin, a low viscosity paste having a low conductive powder content must be used, further increasing the tendency of the conductive powder to separate out and precipitate. Especially, highly-crystallized spherical conductive metal powder having good dispersibility, which has been prepared, for example, by the spray pyrolysis process as proposed in Japanese Patent Application Laid-Open No. 62-1807 or by pyrolyzing a metal compound powder dispersed at a low concentration in a gas phase as proposed in Japanese Patent Application No. 2000-133576 or 2001-108533, is useful for forming a fired film with high packability which results in a microstructually densified and highly conductive thin film. However, once separating out and precipitation of such highly-crystallized spherical powder has occurred in the paste, the powder tends to form a hard cake with a small precipitation volume and the resultant cake is difficult to redisperse. Furthermore, if a petroleum solvent is used as the solvent, then large changes occur over time, and separating out and precipitation becomes yet more prone to occur.
If a paste in which the conductive powder has separated out is sufficiently mixed then a state can be achieved in which the conductive powder appears to have been redispersed, but the paste cannot be returned to its original state. Specifically, the dispersed conductive powder once again agglomerates, resulting in inconveniences such as a deterioration in the surface state of the dried paste film and the packability of the conductive powder, changes in the rheological properties of the paste such as the viscosity, and changes in the printability, leading to changes in the printed configuration and a loss of smoothness. In the case of internal electrodes, such inconveniences can lead to shorting between the dielectric layers and a drop in the capacity of the capacitor after firing, and to problems such as structural defects during the firing process. Moreover, in the case of terminal electrodes, problems such as nonuniformity in the electrode configuration leading to the electrode disruption or inadequacies in the printed configuration such as draping may be caused.
An example of means of resolving these problems is to add a specific compound such as tolyltriazole as reported in Japanese Patent Application Laid-open No. 9-162065, but adequate effects are not necessarily obtained.
Moreover, Japanese Patent Application Laid-open No. 5-242726 discloses the idea of adding an organic nitrogen compound that forms a chelate complex with the metal powder to prevent changes in the conductive paste over time, but there is virtually no effect in preventing precipitation of the metal powder.
Moreover, Japanese Patent Application Laid-open No. 10-92226 discloses the idea of adding a phosphoric ester type or sulfuric ester type anionic surfactant, thus promoting wetting between the conductive powder and the vehicle so that uniform, smooth, thin electrode layers can be formed. However, the effect of preventing separating out and precipitation of the conductive powder over time is inadequate, and moreover phosphorus or sulfur remains in the electrodes as an impurity, adversely affecting the electrical properties and reliability of the capacitor.
SUMMARY OF THE INVENTION
An object of the present invention is to prevent separating out and precipitation of a conductive powder from a paste over time, allowing the paste properties at the time of manufacture to be maintained for a prolonged period of time.
The present invention provides a conductive paste comprising a conductive powder, an organic binder and a solvent as principal components and also containing at least one selected from the group consisting of N-acylamino acids and salts thereof. Moreover, also provided is the above-mentioned conductive paste wherein the total amount added of N-acylamino acids and salts thereof is 0.2 to 5.0 parts by weight per 100 parts by weight of the conductive powder, and the above-mentioned conductive paste wherein the conductive powder comprises at least one selected from the group consisting of nickel, copper and alloys thereof. Moreover, also provided is the above-mentioned conductive paste, additionally containing at least one selected from the group consisting of glasses, metal oxides and ceramics.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
In the present invention, a commonly used conductive powder such as a precious metal powder of silver, palladium, gold, platinum or the like or a base metal powder of nickel, copper, cobalt or the like is used. The conductive powder may either be a powder of one such metal alone, or any powder of an alloy, a composite and a mixture of such metals. Moreover, a metal-inorganic composite powder in which an inorganic material such as metal oxide, glass or ceramic is made to exist on the surface of a metal powder, or a metal-inorganic composite powder in which a conductive metal is coated onto a powder of metal oxide, glass, ceramic or the like or a powder of another metal, can also be used.
There are no particular limitations on the organic binder and the solvent, with it being possible to select ones commonly used for the vehicle of a conductive paste as deemed appropriate. Examples of the organic binder include celluloses, acrylic resins, phenol resins, alkyd resins and rosin esters. Examples of the solvent include organic solvents such as alcohols, ethers, esters and hydrocarbons, and also water, and mixed solvents thereof. Moreover, other things commonly added such as plasticizers, dispersants such as higher fatty acids or fatty acid esters, and surfactants can be included as deemed appropriate.
In addition to the above-mentioned components, commonly included inorganic components, for example inorganic binders such as glass frit, metal oxides such as barium titanate, titanium oxide, alumina, silica, copper oxide and manganese oxide, a ceramic powder having the same nature as the dielectric layers, and montmorillonites, can be added to the conductive paste of the present invention as deemed appropriate in accordance with th
Endo Takashi
Mori Miyuki
Yoshida Hiroshi
Flynn ,Thiel, Boutell & Tanis, P.C.
Kopec Mark
Shoei Chemical Inc.
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