Title of Invention	PHOTOSENSITIVE DISPERSION WITH ADJUSTABLE VISCOSITY FOR METAL DEPOSITION ON AN INSULATING SUBSTRATE
Abstract	The invention relates to a photosensitive dispersion with adjustable viscosity for metal deposition on an insulating substrate, which combines the following: a pigment providing oxidation-reduction properties under light irradiation, a metallic salt, a complex-forming agent for the metallic salt, a liquid film-forming polymer formulation, a basic compound, an organic solvent and water. The invention also relates to the use of said dispersion.

Title of Invention

PHOTOSENSITIVE DISPERSION WITH ADJUSTABLE VISCOSITY FOR METAL DEPOSITION ON AN INSULATING SUBSTRATE

Abstract

The invention relates to a photosensitive dispersion with adjustable viscosity for metal deposition on an insulating substrate, which combines the following: a pigment providing oxidation-reduction properties under light irradiation, a metallic salt, a complex-forming agent for the metallic salt, a liquid film-forming polymer formulation, a basic compound, an organic solvent and water. The invention also relates to the use of said dispersion.

Full Text	Photosensitive dispersion with adjustable viscosity for the deposition of metal on an insulating substrate and use thereof The present invention relates to a photosensitive dispersion with adjustable viscosity for depositing metal on an insulating substrate and use thereof. The patent EP 0 687 311 of the applicant concerns a polymeric resin with adjustable viscosity and pH for depositing catalytic palladium on a substrate, comprising, in combination, a palladium salt, a sequestering agent of the chloride or carboxylic acid type, a polymer containing hydroxyl and/or carboxyl groups soluble in water, a basic compound and a solvent chosen from amongst water, methanol and ethanol, the pH value being between 1 and 10, and to its applications for the deposition of catalytic palladium on the substrate surface and for the metallisation of these surfaces. Although this type of polymeric resin with palladium has proved advantageous in a large number of applications in the metallisation of polymeric substrates and the like, in particular because of its stability over time and the adjustability of its viscosity and pH, it does however have a certain number of drawbacks, including the obligatory use of palladium, which is a noble metal that is both expensive and whose price fluctuates greatly on the market, and the obligatory passage through an autocatalytic (electroless) bath for the metallisation of the non-conductive substrate and also because of the fact that the photosensitivity of the resin is reduced to a narrow range of wavelengths lying between 190 and 300 nm, thus greatly limiting the type of application that can be envisaged and the radiation source that can be used in this regard. One of the essential aims of the present invention consequently consists of remedying the aforementioned drawbacks and presenting a photosensitive dispersion with adjustable viscosity that no longer necessarily requires the use of a noble metal such as palladium and also having recourse to other more common and less expensive metals and whose photosensitivity is broadened to a range of wavelengths between 190 and 450 nm requiring much lower irradiation energy than the polymer resins known up till now, below 100 mJ/cm2, and not requiring the obligatory passage through an autocatalytic bath for metallising the substrate, consequently allowing direct electrolytic metallisation. To this end, according to the invention, the photosensitive dispersion comprises, in combination, a pigment conferring properties of oxidation-reduction under light irradiation, a metallic salt, a sequestering agent for the metallic salt, a liquid film-forming polymeric formulation, a basic compound, an organic solvent and water. According to one advantageous embodiment of the invention, the pigment is titanium dioxide and is in the form of a fine powder. According to another advantageous embodiment, the metallic salt is a transition metallic salt and in particular chosen from the group comprising copper, gold, platinum, palladium^ nickel, cobalt, silver, iron, zinc, cadmium, ruthenium and rhodium, and is preferably copper (II) chloride, copper (II) sulphate, palladium (II) chloride, nickel (II) chloride or a mixture of at least two of these salts. According to yet another advantageous embodiment of the invention, the liquid film-forming polymeric formulation is in the form of a solution or emulsion, and in particular a solution of the alkyl, acrylic, polyester or epoxy type, an acrylic emulsion or a mixture of these. mepreseni invention aiso concerns a meinoa OT depositing meiai on ine surface on an insulating substrate, by means of a photosensitive dispersion, which consists of applying the said dispersion in the form of a film to the substrate in a selective manner or not, drying the film applied to the said substrate and irradiating by means of an ultraviolet and/or laser radiation with a range of wavelengths lying between 190 and 450 nm and an energy of between 25 mJ/cm2 and 100 mJ/cm2 until a layer of metal, selective or not, is obtained on the substrate. Other details and particularities of the invention will emerge from the following description, by way of non-limiting example, of photosensitive dispersions according to the invention and their applications for the deposition of metal on the insulating substrate surface as well as for the metallisation of these surfaces. As already stated previously, the aim of these photosensitive dispersions with variable viscosity of the invention is to replace the polymeric resins and solutions with palladium known up to the present time, the main drawbacks of which have been stated, and developing photosensitive dispersions with adjustable viscosity and a much more extensive applicability than the known resins, comprising, in combination, a pigment conferring oxidation-reduction properties under light irradiation, a metallic salt, a sequestering agent for the metallic salt, a liquid film-forming polymeric formulation, a basic compound, an organic solvent and water. The expression "pigment conferring properties of oxidation-reduction under light irradiation" means any pigment capable of forming on the surface an oxidising-reducing system under Ijght irradiation. In fact, a particle of pigment is a semiconductor and when this is subjected to a chosen radiation the energy of this radiation will allow the formation of an oxidising-reducing pigment particle. Thus the particle formed in this way will be able to effect the following two reactions simultaneously, namely the reduction of a cationic species adsorbed on the surface and the oxidation of an ionic species adsorbed on the surface. These pigments are used in the form of finely divided powders, generally with a particle size ranging from 10 nanometres to 10 micrometres, advantageously with a particle size of 15 nanometres to 1 micrometre. Titanium dioxide is the pigment best suited for this purpose. The metal of the metallic salt is advantageously a transition metal, and is more particularly copper, gold, platinum, palladium, nickel, cobalt, silver, __- * iron, zinc, cadmium, ruthenium or rhodium or a mixture of at least two of these. Particularly advantageous metallic salts are copper (II) chloride, copper (II) sulphate, palladium (II) chloride, nickel (II) chloride and mixtures of at least two of these salts. According to the invention, the expression "liquid film-forming polymeric formulation" means that the polymer is in the form of a solution or emulsion or any similar composition and in fact serves as an agent for adjusting the viscosity of the photosensitive dispersion so as to obtain in this way a continuous homogeneous film on the surface of the substrate by means of various coating means such as spraying, dipping, roller application, screen printing, pad printing or the like. In addition, this polymer also participates in the oxidation-reduction reaction. In fact, the pigment made semiconducting under the light irradiation reduces the metallic cations of the metallic salt but, for this reaction to be effective, the pigment must also oxidise another compound, a role which is held in the present case by a solid film from which all the solvents were evaporated during drying after coating. Consequently the pigment on the one hand reduces the metallic cations but on the other hand oxidises the substrate, for the pigment particles which are in contact with it, thus ensuring good adhesion, as well as the film-forming polymeric matrix for the particles which are not in contact with the substrate, thus ensuring good efficacy of the reaction as a solid" film. Examples of formulations are the film-forming polymeric solutions of the alkyl, acrylic, polyester and epoxy type, and acrylic emulsions such as those normally used in the preparation of alkalis, detergents, paints and inks, and mixtures of these solutions and/or smulsions. The sequestering agent for a metallic salt is advantageously of the sulphate, chloride or carboxylic acid type. The purpose of this sequestering agent, by coordinating itself with the metallic salt, is to solubilise the latter. Examples of sequestering agents of the carboxylic acid type are tartaric acid, citric acid, derivatives thereof and mixtures of at least two of these compounds. The basic compound used in the context of the photosensitive dispersion serves to neutralise all the acids present in it and to adjust the pH beyond 7. Potassium hydroxide, sodium hydroxide, ammonia and mixtures thereof are examples of bases that can be used. The use of a basic salt such as sodium carbonate, potassium carbonate, calcium carbonate and mixtures thereof could also be envisaged. Mixtures of a base and a basic salt can also be envisaged. The organic solvent and the water have an important role to play in the context of the photosensitive dispersion of the invention. The organic solvent will be chosen from amongst ethers, esters, ketones and alcohols, alone or in a mixture. The role of the organic solvents is manifold. They ensure in particular good adhesion of the film to the insulating substrate and thus good attachment of the pigment to the substrate, good formation of the films, rapid drying or again good dispersion of these various components in the catalytic paint. The solvents are advantageously used in a mixture so as to apportion the property relating to each one vis-a-vis their respective role In the product, Tor me Tormanon OT me mm or un ine substrate. Examples of solvents used in isolation or in a mixture are dioxane, cyclohexanone, 2-methoxy-1-methylethyl acetate, mixtures of dipropylene glycol methyl ether isomers, mixtures of tripropylene glycol methyl ether isomers, and mixtures of at least two of these. The water is advantageously deionised water. The presence of the water in a fairly small quantity is also important. This is because this makes the photosensitive dispersion less corrosive than the majority of formulations of the prior art and affords ease of application in all circumstances through its formulation close to a paint. The presence of an organic solvent or solvents also makes it possible to avoid chemical and/or mechanical pretreatment of the surface of the substrate and better control over the evaporation temperature than in a case of aqueous solutions containing a much greater proportion of water. As additions compatible with the photographic dispersion of the invention, there will advantageously be added, as already stated above, one or more mixtures of wetting and/or dispersing agents. The wetting agent is an agent modifying the surface tension and its purpose is to reduce this by forming an adsorbed layer having a surface tension intermediate between the liquid/liquid or liquid/solid phases. Advantageous wetting agents are silanes, fluoroaliphatic polymer esters or products with a high percentage of 2-butoxyethanol. Typical commercial products are Dapro U99 manufactured by Daniel Products and Schwego-wett (registered trade marks). The dispersing agent is advantageously a dispersing agent for pigments compatible with acrylic polymers, polyesters and epoxides. It improves the dispersion of the solid pigment particles which may be present in the catalytic paint. Examples of dispersing agents are Disperse-AYD W-33 (a mixture of non-ionic and anionic surface-active agents in solution in water) and Deuteron ND 953 (an aqueous solution of sodium polyaldehydocarbonate) (registered trade marks), respectively manufactured by Elementis and Deuteron. With regard to the concentrations of the various components of the photosensitive dispersion or catalytic paint of the invention, these will of course depend on the nature of these components and of the solvent used. However, use will be made in general terms, according to the invention, of the pigment and more particularly the titanium dioxide in a concentration, as a percentage by weight, of 1% to 50% and preferably 5% to 25%, the metallic salt in a concentration, as a percentage by weight, of 0.01% to 5% and preferably 0.05% to 1%, the sequestering agent in a concentration, in a percentage by weight, of 0.01% to 10% and preferably 0.1% to 1%, the film-forming polymeric emulsion and/or solution in a concentration, as a percentage by weight, of 1% to 50% and preferably 5% to 25%, the base in a concentration, as a percentage by weight, of 0.01% to 5% and preferably 0.1% to 1%, the organic solvent in a concentration, as a percentage by weight, of 0.1% to 55% and preferably 1% to 40% and the water in a concentration, as a percentage by weight, of 1% to 15%. The concentration of wetting agent, as a percentage by weight, is 0.1% to 5% and preferably 0.25% to 1.0%, and the concentration of dispersing agent, as a percentage by weight, is 0.1% to 15% and preferably 0.2% to 2%. The preparation of the photosensitive dispersions of the invention is carried out according to a simple process of mixing all the various constituents which it contains. The order of addition of each of these constituents is of no importance and has no consequence on the intrinsic properties of the dispersion. In fact, all the components constituting the photosensitive dispersion, namely the pigment, the metallic salt, the sequestering agent, the liquid film-forming polymeric formulation, the basic compound, the organic solvent and the water as well as any additions are mixed and the said dispersion is applied in the form of a film to the substrate selectively rather than according to the application envisaged. Next the film applied to the substrate is dried and is irradiated by means of an ultraviolet and/or laser radiation with a range of wavelengths of between 190 and 450 nm and an energy of between 25 mJ.cm2 and 100 mJ/cm2 until a layer of metal, selective or not, is obtained on the substrate. Examples of photosensitive dispersions of the invention are given below, as well as techniques for their use. Example 1 Catalytic paint with palladium for the metallisation, selective or not, of a polymeric substrate. Composition of the dispersion Concentration as % by weight Titanium dioxide as finely divided powder 5 to 25 Dioxane 10 to 30 2-methoxy-1 -methylethyl acetate 25 to 40 Mixture of dipropylene glycol methyl ether isomers 1 to 15 Disperse-AYD® W33 1) 0.2 to 2 Joncryl© 537 2) 5 to 25 Mixture of tripropylene glycol methyl ether isomers 1 to 5 Dapro ® U99 3) 0.25 to 1 Palladium (II) chloride (metallic salt) 0.05 to 1 Tartaric acid (sequestering agent) 0.1 to 1 Ammonia (base) 0.1 to 1 Deiomsed water 1 to 15 -9- 1) Dispersing agent manufactured by Elements: mixture of non-ionic and anionic surface-active agents in water. 2) Film-forming acrylic polymeric emulsion, manufacture by Johnson Polymer, registered trade mark. 3) Wetting agent manufacture by Daniel Products: silicon-free interface tension modifier. The catalytic dispersion or paint is applied to a polymer substrate, without any prior treatment of the latter, by dipping, spraying, roller application or pad printing, and is then dried in air for a few seconds. The film thus obtained is irradiated using commonly used UV lamps and/or laser and having a spectrum of between 250 and 450 nm, for the time necessary for the film to receive a minimum energy of 25 mJ/cm2. If selective metallisation is required, this irradiation will be performed through a mask. The result is the deposition of a catalytic palladium layer, selective or not. In the case of selective metallisation, the non-irradiated parts are solubilised in water. A metallic overloading by electroplating is then made possible, the substrate being made conductive. Example 2 Catalytic paint with copper for the metallisation, selective or not, of a polymer substrate. 1) Dispersing agent manufactured by Elements: mixture of non-ionic and anionic surface-active agents in water. 2) Film-forming acrylic polymeric emulsion, manufacture by Johnson Polymer, registered trade mark. 3) Wetting agent manufacture by Daniel Products: silicon-free interface tension modifier. The same procedure as in Example 1 is followed. The result is the deposition of a catalytic copper chloride, selective or not and catalytic copper layer. In the case of a selective metallisation, the non-irradiated parts are solubilised in water. A metallic overloading by electroplating is then made possible. In fact the metallic salt could be replaced in the concentrations indicated by all the specifically cited salts, namely copper (II) sulphate and palladium and nickel (II) chlorides. The substrates tested in the context of the aforementioned examples are normal plastics materials such as ABS, ABS-PC (polycarbonate), certain polyamides, epoxy materials, polycarbonates and the like. Apart from the advantages clearly defined of the photosensitive dispersion of the invention compared with the polymeric resins or other formulations known, it should be noted that the dispersion is a formulation extremely close to a paint, making it easy to apply in all circumstances. In addition, apart from the fact that it is no longer necessary to have recourse to chemical and/or mechanical pretreatment of the insulating substrate so as to obtain good adhesion of the final metallic deposition through controlled selective oxidation of the surface of the substrate by the pigment, the photosensitive catalytic paint or dispersion of the invention presents no corrosiveness, unlike the formulations of the prior art, which are all very corrosive. Naturally the present invention is in no way limited to the embodiments described above and many modifications can be made without departing from the scope of the present patent. WE CLAIM: 1. A photosensitive dispersion with adjustable viscosity for the deposition of metal on an insulating substrate, which comprises in combination, a pigment conferring properties of oxidation-reduction under light irradiation, a metallic salt, a sequestering agent for the metallic salt, a liquid film-forming polymeric formulation, a basic compound, an organic solvent such as herein described and water. 2. The dispersion as claimed in claim 1, wherein said pigment is titanium dioxide. 3. The dispersion as claimed in claim 2, wherein the titanium oxide pigment is in the form of a powder with a particle size of 10 nanometres to 10 micrometres, advantageously from 15 nanometres to 1 micrometre. 4. The dispersion as claimed in any one of claims 1 to 3, wherein the metallic salt is a transition metal salt. 5. The dispersion as claimed in claim 4, wherein the transition metal is chosen from the group comprising copper, gold, platinum, palladium, nickel, cobalt, silver, iron, zinc, cadmium, ruthenium and rhodium. 6. The dispersion as claimed in claim 4, wherein the transition metal salt is chosen from amongst copper (II) chloride, copper (II) sulphate, palladium (II) chloride, nickel (II) chloride and mixtures of at least two of these. 7. The dispersion as claimed in any one of claims 1 to 6, wherein the sequestering agent for the metallic salt is of the sulphate, chloride or carboxylic acid type. 8. The dispersion as claimed in claim 7, wherein the sequestering agent of the carboxylic acid type is tartaric acid, citric acid, a derivative of these or a mixture thereof. 9. The dispersion as claimed in any one of claims 1 to 8, wherein the liquid film-forming polymeric formulation is a solution or emulsion. 10. The dispersion as claimed in claim 9, wherein as a film-forming polymeric formulation, a solution of the alkyl, acrylic, polyester or epoxy type, an acrylic emulsion or a mixture of these. 11. The dispersion as claimed in any one of claims 1 to 10, wherein the basic compound is a base, a basic salt or a mixture of these. 12. The dispersion as claimed in claim 11, wherein the basic compound is a base chosen from amongst potassium hydroxide, sodium hydroxide and ammonia. 13. The dispersion as claimed in any one of claims 1 to 12, wherein the organic solvent is chosen from a group comprising ethers, esters, ketones, alcohols and mixtures thereof. 14. The dispersion as claimed in claim 13, wherein the organic solvent is chosen from amongst dioxane, cyclohexanone, 2-methoxy-l-methylethyl acetate, a mixture of dipropylene glycol methyl ether isomers, a mixture of tripropylene glycol methyl ether isomers and mixtures of at least two of these. 15. The dispersion as claimed in any one of claims 1 to 14, wherein said dispersion comprises deionised water. 16 The dispersion as claimed in any one of claims 1 to 15, wherein said dispersion also comprises at least one wetting agent, a dispersing agent or a mixture of ;hese. 17. The dispersion as claimed in any one of claims 2 to 16, wherein the concentration of titanium dioxide, as a percentage by weight, is 1% to 50% and preferably 5% to 25%. 18. The dispersion as claimed in any one of claims 1 to 17, wherein the concentration of metallic salt, as a percentage by weight, is 0.01% to 5% and preferably 0.05% to 1%. 19. The dispersion as claimed in any one of claims 1 to 18, wherein the concentration of sequestering agent, as a percentage by weight, is 0.01% to 10% and preferably 0.1% to 1%. 20. The dispersion as claimed in any one of claims 1 to 19, wherein the concentration of film-forming polymeric formulation, as a percentage by weight, is 1% to 50% and preferably 5% to 25%. 21. The dispersion as claimed in any one of claims 12 to 20, wherein the concentration of base, as a percentage by weight, is 0.01% to 5% and preferably 0.1% to 1%. 22. The dispersion as claimed in any one of claims 1 to 21, wherein the concentration of organic solvent, as a percentage by weight, is 0.1% to 55% and preferably 1% to 40%. 23. The dispersion as claimed in any one of claims 1 to 22, wherein the concentration of water, as a percentage by weight, is 1% to 15%. 24. A method of depositing metal on the surface of an insulating substrate, wherein the photosensitive dispersion as claimed in any one of claims 1 to 23, in the form of a film is applied on the substrate, drying the film applied to the said substrate and irradiation by means of ultraviolet radiation and/or laser with a range of wavelengths between 190 and 450 nm and an energy between 25 mJ/cm2 and 100 mJ/cm2 until a layer of metal, is obtained on the substrate.

Full Text

Photosensitive dispersion with adjustable
viscosity for the deposition of metal on an insulating substrate and use thereof
The present invention relates to a photosensitive dispersion with adjustable viscosity for depositing metal on an insulating substrate and use thereof.
The patent EP 0 687 311 of the applicant concerns a polymeric resin with adjustable viscosity and pH for depositing catalytic palladium on a substrate, comprising, in combination, a palladium salt, a sequestering agent of the chloride or carboxylic acid type, a polymer containing hydroxyl and/or carboxyl groups soluble in water, a basic compound and a solvent chosen from amongst water, methanol and ethanol, the pH value being between 1 and 10, and to its applications for the deposition of catalytic palladium on the substrate surface and for the metallisation of these surfaces. Although this type of polymeric resin with palladium has proved advantageous in a large number of applications in the metallisation of polymeric substrates and the like, in particular because of its stability over time and the adjustability of its viscosity and pH, it does however have a certain number of drawbacks, including the obligatory use of palladium, which is a noble metal that is both expensive and whose price fluctuates greatly on the market, and the obligatory passage through an autocatalytic (electroless) bath for the metallisation of the non-conductive substrate and also because of the fact that the photosensitivity of the resin is reduced to a narrow range of wavelengths lying between 190 and 300 nm, thus greatly limiting the type of application that can be envisaged and the radiation source that can be used in this regard.
One of the essential aims of the present invention consequently consists of remedying the aforementioned drawbacks and presenting a photosensitive

dispersion with adjustable viscosity that no longer necessarily requires the use of a noble metal such as palladium and also having recourse to other more common and less expensive metals and whose photosensitivity is broadened to a range of wavelengths between 190 and 450 nm requiring much lower irradiation energy than the polymer resins known up till now, below 100 mJ/cm2, and not requiring the obligatory passage through an autocatalytic bath for metallising the substrate, consequently allowing direct electrolytic metallisation.
To this end, according to the invention, the photosensitive dispersion comprises, in combination, a pigment conferring properties of oxidation-reduction under light irradiation, a metallic salt, a sequestering agent for the metallic salt, a liquid film-forming polymeric formulation, a basic compound, an organic solvent and water.
According to one advantageous embodiment of the invention, the pigment is titanium dioxide and is in the form of a fine powder.
According to another advantageous embodiment, the metallic salt is a transition metallic salt and in particular chosen from the group comprising copper, gold, platinum, palladium^ nickel, cobalt, silver, iron, zinc, cadmium, ruthenium and rhodium, and is preferably copper (II) chloride, copper (II) sulphate, palladium (II) chloride, nickel (II) chloride or a mixture of at least two of these salts.
According to yet another advantageous embodiment of the invention, the liquid film-forming polymeric formulation is in the form of a solution or emulsion, and in particular a solution of the alkyl, acrylic, polyester or epoxy type, an acrylic emulsion or a mixture of these.

mepreseni invention aiso concerns a meinoa OT depositing meiai on ine surface on an insulating substrate, by means of a photosensitive dispersion, which consists of applying the said dispersion in the form of a film to the substrate in a selective manner or not, drying the film applied to the said substrate and irradiating by means of an ultraviolet and/or laser radiation with a range of wavelengths lying between 190 and 450 nm and an energy of between 25 mJ/cm2 and 100 mJ/cm2 until a layer of metal, selective or not, is obtained on the substrate.
Other details and particularities of the invention will emerge from the following description, by way of non-limiting example, of photosensitive dispersions according to the invention and their applications for the deposition of metal on the insulating substrate surface as well as for the metallisation of these surfaces.
As already stated previously, the aim of these photosensitive dispersions with variable viscosity of the invention is to replace the polymeric resins and solutions with palladium known up to the present time, the main drawbacks of which have been stated, and developing photosensitive dispersions with adjustable viscosity and a much more extensive applicability than the known resins, comprising, in combination, a pigment conferring oxidation-reduction properties under light irradiation, a metallic salt, a sequestering agent for the metallic salt, a liquid film-forming polymeric formulation, a basic compound, an organic solvent and water.
The expression "pigment conferring properties of oxidation-reduction under light irradiation" means any pigment capable of forming on the surface an oxidising-reducing system under Ijght irradiation. In fact, a particle of pigment is a semiconductor and when this is subjected to a chosen radiation the energy of this radiation will allow the formation of an oxidising-reducing pigment particle. Thus the particle formed in this way will be able

to effect the following two reactions simultaneously, namely the reduction of a cationic species adsorbed on the surface and the oxidation of an ionic species adsorbed on the surface. These pigments are used in the form of finely divided powders, generally with a particle size ranging from 10 nanometres to 10 micrometres, advantageously with a particle size of 15 nanometres to 1 micrometre. Titanium dioxide is the pigment best suited for this purpose.
The metal of the metallic salt is advantageously a transition metal, and is
more particularly copper, gold, platinum, palladium, nickel, cobalt, silver,
__- *
iron, zinc, cadmium, ruthenium or rhodium or a mixture of at least two of these. Particularly advantageous metallic salts are copper (II) chloride, copper (II) sulphate, palladium (II) chloride, nickel (II) chloride and mixtures of at least two of these salts.
According to the invention, the expression "liquid film-forming polymeric formulation" means that the polymer is in the form of a solution or emulsion or any similar composition and in fact serves as an agent for adjusting the viscosity of the photosensitive dispersion so as to obtain in this way a continuous homogeneous film on the surface of the substrate by means of various coating means such as spraying, dipping, roller application, screen printing, pad printing or the like. In addition, this polymer also participates in the oxidation-reduction reaction. In fact, the pigment made semiconducting under the light irradiation reduces the metallic cations of the metallic salt but, for this reaction to be effective, the pigment must also oxidise another compound, a role which is held in the present case by a solid film from which all the solvents were evaporated during drying after coating. Consequently the pigment on the one hand reduces the metallic cations but on the other hand oxidises the substrate, for the pigment particles which are in contact with it, thus ensuring good adhesion, as well as the film-forming polymeric matrix for the particles which are not in

contact with the substrate, thus ensuring good efficacy of the reaction as a solid" film. Examples of formulations are the film-forming polymeric solutions of the alkyl, acrylic, polyester and epoxy type, and acrylic emulsions such as those normally used in the preparation of alkalis, detergents, paints and inks, and mixtures of these solutions and/or smulsions.
The sequestering agent for a metallic salt is advantageously of the sulphate, chloride or carboxylic acid type. The purpose of this sequestering agent, by coordinating itself with the metallic salt, is to solubilise the latter. Examples of sequestering agents of the carboxylic acid type are tartaric acid, citric acid, derivatives thereof and mixtures of at least two of these compounds.
The basic compound used in the context of the photosensitive dispersion serves to neutralise all the acids present in it and to adjust the pH beyond 7. Potassium hydroxide, sodium hydroxide, ammonia and mixtures thereof are examples of bases that can be used. The use of a basic salt such as sodium carbonate, potassium carbonate, calcium carbonate and mixtures thereof could also be envisaged. Mixtures of a base and a basic salt can also be envisaged.
The organic solvent and the water have an important role to play in the context of the photosensitive dispersion of the invention. The organic solvent will be chosen from amongst ethers, esters, ketones and alcohols, alone or in a mixture. The role of the organic solvents is manifold. They ensure in particular good adhesion of the film to the insulating substrate and thus good attachment of the pigment to the substrate, good formation of the films, rapid drying or again good dispersion of these various components in the catalytic paint. The solvents are advantageously used in a mixture so as to apportion the property relating to each one vis-a-vis

their respective role In the product, Tor me Tormanon OT me mm or un ine substrate. Examples of solvents used in isolation or in a mixture are dioxane, cyclohexanone, 2-methoxy-1-methylethyl acetate, mixtures of dipropylene glycol methyl ether isomers, mixtures of tripropylene glycol methyl ether isomers, and mixtures of at least two of these. The water is advantageously deionised water. The presence of the water in a fairly small quantity is also important. This is because this makes the photosensitive dispersion less corrosive than the majority of formulations of the prior art and affords ease of application in all circumstances through its formulation close to a paint. The presence of an organic solvent or solvents also makes it possible to avoid chemical and/or mechanical pretreatment of the surface of the substrate and better control over the evaporation temperature than in a case of aqueous solutions containing a much greater proportion of water.
As additions compatible with the photographic dispersion of the invention, there will advantageously be added, as already stated above, one or more mixtures of wetting and/or dispersing agents. The wetting agent is an agent modifying the surface tension and its purpose is to reduce this by forming an adsorbed layer having a surface tension intermediate between the liquid/liquid or liquid/solid phases. Advantageous wetting agents are silanes, fluoroaliphatic polymer esters or products with a high percentage of 2-butoxyethanol. Typical commercial products are Dapro U99 manufactured by Daniel Products and Schwego-wett (registered trade marks). The dispersing agent is advantageously a dispersing agent for pigments compatible with acrylic polymers, polyesters and epoxides. It improves the dispersion of the solid pigment particles which may be present in the catalytic paint. Examples of dispersing agents are Disperse-AYD W-33 (a mixture of non-ionic and anionic surface-active agents in solution in water) and Deuteron ND 953 (an aqueous solution of sodium

polyaldehydocarbonate) (registered trade marks), respectively manufactured by Elementis and Deuteron.
With regard to the concentrations of the various components of the photosensitive dispersion or catalytic paint of the invention, these will of course depend on the nature of these components and of the solvent used. However, use will be made in general terms, according to the invention, of the pigment and more particularly the titanium dioxide in a concentration, as a percentage by weight, of 1% to 50% and preferably 5% to 25%, the metallic salt in a concentration, as a percentage by weight, of 0.01% to 5% and preferably 0.05% to 1%, the sequestering agent in a concentration, in a percentage by weight, of 0.01% to 10% and preferably 0.1% to 1%, the film-forming polymeric emulsion and/or solution in a concentration, as a percentage by weight, of 1% to 50% and preferably 5% to 25%, the base in a concentration, as a percentage by weight, of 0.01% to 5% and preferably 0.1% to 1%, the organic solvent in a concentration, as a percentage by weight, of 0.1% to 55% and preferably 1% to 40% and the water in a concentration, as a percentage by weight, of 1% to 15%. The concentration of wetting agent, as a percentage by weight, is 0.1% to 5% and preferably 0.25% to 1.0%, and the concentration of dispersing agent, as a percentage by weight, is 0.1% to 15% and preferably 0.2% to 2%.
The preparation of the photosensitive dispersions of the invention is carried out according to a simple process of mixing all the various constituents which it contains. The order of addition of each of these constituents is of no importance and has no consequence on the intrinsic properties of the dispersion. In fact, all the components constituting the photosensitive dispersion, namely the pigment, the metallic salt, the sequestering agent, the liquid film-forming polymeric formulation, the basic compound, the organic solvent and the water as well as any additions are

mixed and the said dispersion is applied in the form of a film to the substrate selectively rather than according to the application envisaged. Next the film applied to the substrate is dried and is irradiated by means of an ultraviolet and/or laser radiation with a range of wavelengths of between 190 and 450 nm and an energy of between 25 mJ.cm2 and 100 mJ/cm2 until a layer of metal, selective or not, is obtained on the substrate.
Examples of photosensitive dispersions of the invention are given below, as well as techniques for their use.
Example 1
Catalytic paint with palladium for the metallisation, selective or not, of a polymeric
substrate.

Composition of the dispersion Concentration as % by weight
Titanium dioxide as finely divided powder 5 to 25
Dioxane 10 to 30
2-methoxy-1 -methylethyl acetate 25 to 40
Mixture of dipropylene glycol methyl ether isomers 1 to 15
Disperse-AYD® W33 1) 0.2 to 2
Joncryl© 537 2) 5 to 25
Mixture of tripropylene glycol methyl ether isomers 1 to 5
Dapro ® U99 3) 0.25 to 1
Palladium (II) chloride (metallic salt) 0.05 to 1
Tartaric acid (sequestering agent) 0.1 to 1
Ammonia (base) 0.1 to 1
Deiomsed water 1 to 15
-9-

1) Dispersing agent manufactured by Elements: mixture of non-ionic and anionic surface-active agents in water.
2) Film-forming acrylic polymeric emulsion, manufacture by Johnson Polymer, registered trade mark.
3) Wetting agent manufacture by Daniel Products: silicon-free interface tension modifier.
The catalytic dispersion or paint is applied to a polymer substrate, without any prior treatment of the latter, by dipping, spraying, roller application or pad printing, and is then dried in air for a few seconds. The film thus obtained is irradiated using commonly used UV lamps and/or laser and having a spectrum of between 250 and 450 nm, for the time necessary for the film to receive a minimum energy of 25 mJ/cm2. If selective metallisation is required, this irradiation will be performed through a mask. The result is the deposition of a catalytic palladium layer, selective or not. In the case of selective metallisation, the non-irradiated parts are solubilised in water. A metallic overloading by electroplating is then made possible, the substrate being made conductive.
Example 2
Catalytic paint with copper for the metallisation, selective or not, of a polymer substrate.

1) Dispersing agent manufactured by Elements: mixture of non-ionic and anionic
surface-active agents in water.
2) Film-forming acrylic polymeric emulsion, manufacture by Johnson Polymer,
registered trade mark.
3) Wetting agent manufacture by Daniel Products: silicon-free interface tension
modifier.
The same procedure as in Example 1 is followed. The result is the deposition of a catalytic copper chloride, selective or not and catalytic copper layer. In the case of a selective metallisation, the non-irradiated parts are solubilised in water. A metallic overloading by electroplating is then made possible.

In fact the metallic salt could be replaced in the concentrations indicated by all the specifically cited salts, namely copper (II) sulphate and palladium and nickel (II) chlorides.
The substrates tested in the context of the aforementioned examples are normal plastics materials such as ABS, ABS-PC (polycarbonate), certain polyamides, epoxy materials, polycarbonates and the like.
Apart from the advantages clearly defined of the photosensitive dispersion of the invention compared with the polymeric resins or other formulations known, it should be noted that the dispersion is a formulation extremely close to a paint, making it easy to apply in all circumstances. In addition, apart from the fact that it is no longer necessary to have recourse to chemical and/or mechanical pretreatment of the insulating substrate so as to obtain good adhesion of the final metallic deposition through controlled selective oxidation of the surface of the substrate by the pigment, the photosensitive catalytic paint or dispersion of the invention presents no corrosiveness, unlike the formulations of the prior art, which are all very corrosive.
Naturally the present invention is in no way limited to the embodiments described above and many modifications can be made without departing from the scope of the present patent.

WE CLAIM:
1. A photosensitive dispersion with adjustable viscosity for the deposition of metal on an insulating substrate, which comprises in combination, a pigment conferring properties of oxidation-reduction under light irradiation, a metallic salt, a sequestering agent for the metallic salt, a liquid film-forming polymeric formulation, a basic compound, an organic solvent such as herein described and water.
2. The dispersion as claimed in claim 1, wherein said pigment is titanium dioxide.
3. The dispersion as claimed in claim 2, wherein the titanium oxide pigment is in the form of a powder with a particle size of 10 nanometres to 10 micrometres, advantageously from 15 nanometres to 1 micrometre.
4. The dispersion as claimed in any one of claims 1 to 3, wherein the metallic salt is a transition metal salt.
5. The dispersion as claimed in claim 4, wherein the transition metal is chosen from the group comprising copper, gold, platinum, palladium, nickel, cobalt, silver, iron, zinc, cadmium, ruthenium and rhodium.
6. The dispersion as claimed in claim 4, wherein the transition metal salt is chosen from amongst copper (II) chloride, copper (II) sulphate, palladium (II) chloride, nickel (II) chloride and mixtures of at least two of these.
7. The dispersion as claimed in any one of claims 1 to 6, wherein the sequestering agent for the metallic salt is of the sulphate, chloride or carboxylic acid type.

8. The dispersion as claimed in claim 7, wherein the sequestering agent of the carboxylic acid type is tartaric acid, citric acid, a derivative of these or a mixture thereof.
9. The dispersion as claimed in any one of claims 1 to 8, wherein the liquid film-forming polymeric formulation is a solution or emulsion.
10. The dispersion as claimed in claim 9, wherein as a film-forming polymeric formulation, a solution of the alkyl, acrylic, polyester or epoxy type, an acrylic emulsion or a mixture of these.
11. The dispersion as claimed in any one of claims 1 to 10, wherein the basic compound is a base, a basic salt or a mixture of these.
12. The dispersion as claimed in claim 11, wherein the basic compound is a base chosen from amongst potassium hydroxide, sodium hydroxide and ammonia.
13. The dispersion as claimed in any one of claims 1 to 12, wherein the organic solvent is chosen from a group comprising ethers, esters, ketones, alcohols and mixtures thereof.
14. The dispersion as claimed in claim 13, wherein the organic solvent is chosen from amongst dioxane, cyclohexanone, 2-methoxy-l-methylethyl acetate, a mixture of dipropylene glycol methyl ether isomers, a mixture of tripropylene glycol methyl ether isomers and mixtures of at least two of these.
15. The dispersion as claimed in any one of claims 1 to 14, wherein said dispersion comprises deionised water.

16 The dispersion as claimed in any one of claims 1 to 15, wherein said dispersion also comprises at least one wetting agent, a dispersing agent or a mixture of ;hese.
17. The dispersion as claimed in any one of claims 2 to 16, wherein the concentration of titanium dioxide, as a percentage by weight, is 1% to 50% and preferably 5% to 25%.
18. The dispersion as claimed in any one of claims 1 to 17, wherein the concentration of metallic salt, as a percentage by weight, is 0.01% to 5% and preferably 0.05% to 1%.
19. The dispersion as claimed in any one of claims 1 to 18, wherein the concentration of sequestering agent, as a percentage by weight, is 0.01% to 10% and preferably 0.1% to 1%.
20. The dispersion as claimed in any one of claims 1 to 19, wherein the concentration of film-forming polymeric formulation, as a percentage by weight, is 1% to 50% and preferably 5% to 25%.
21. The dispersion as claimed in any one of claims 12 to 20, wherein the concentration of base, as a percentage by weight, is 0.01% to 5% and preferably 0.1% to 1%.
22. The dispersion as claimed in any one of claims 1 to 21, wherein the concentration of organic solvent, as a percentage by weight, is 0.1% to 55% and preferably 1% to 40%.

23. The dispersion as claimed in any one of claims 1 to 22, wherein the
concentration of water, as a percentage by weight, is 1% to 15%.
24. A method of depositing metal on the surface of an insulating substrate, wherein
the photosensitive dispersion as claimed in any one of claims 1 to 23, in the
form of a film is applied on the substrate, drying the film applied to the said
substrate and irradiation by means of ultraviolet radiation and/or laser with a
range of wavelengths between 190 and 450 nm and an energy between 25
mJ/cm2 and 100 mJ/cm2 until a layer of metal, is obtained on the substrate.

Documents:

1764-chenp-2005 abstract-duplicate.pdf

1764-chenp-2005 claims-duplicate.pdf

1764-chenp-2005 description(complete)-duplicate.pdf

1764-chenp-2005 others.pdf

1764-chenp-2005-abstract.pdf

1764-chenp-2005-claims.pdf

1764-chenp-2005-correspondnece-others.pdf

1764-chenp-2005-correspondnece-po.pdf

1764-chenp-2005-description(complete).pdf

1764-chenp-2005-form 1.pdf

1764-chenp-2005-form 18.pdf

1764-chenp-2005-form 26.pdf

1764-chenp-2005-form 3.pdf

1764-chenp-2005-form 5.pdf

1764-chenp-2005-pct.pdf

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Patent Number

215449

Indian Patent Application Number

1764/CHENP/2005

PG Journal Number

13/2008

Publication Date

31-Mar-2008

Grant Date

26-Feb-2008

Date of Filing

01-Aug-2005

Name of Patentee

SEMIKA S.A

Applicant Address

Boulevard du Prince Henri, 3B, 1724 Luxembourg ,

Inventors:

#	Inventor's Name	Inventor's Address
1	DUPUIS, Olivier	Rue du Culot 3, B-1435 Hevillers,
2	DELVAUX, Mary-Helene	Rue du Culot 3, B-1435 Hevillers,

PCT International Classification Number

C23C 18/30

PCT International Application Number

PCT/BE03/00229

PCT International Filing date

2003-12-24

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	2003/0007	2003-01-03	Belgium