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Provided a method for producing an oriented-porosity dielectric material on a substrate. The method includes depositing a composite layer on a substrate by vapor deposition comprising a material forming a matrix and a compound comprising chemical groups capable of being oriented under the effect of

Provided a method for producing an oriented-porosity dielectric material on a substrate. The method includes depositing a composite layer on a substrate by vapor deposition comprising a material forming a matrix and a compound comprising chemical groups capable of being oriented under the effect of an electromagnetic field and/or photonic radiation; treating the composite layer to obtain the cross-linking of the material forming a matrix; and subjecting the substrate coated with the composite layer to an electromagnetic field and a photonic radiation.

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1. A method for producing an oriented-porosity dielectric material on a substrate, the method comprising: a) depositing a composite layer on a substrate by a vapor phase deposition, wherein the composite layer comprises a material forming a matrix and a compound comprising at least one chemical grou

1. A method for producing an oriented-porosity dielectric material on a substrate, the method comprising: a) depositing a composite layer on a substrate by a vapor phase deposition, wherein the composite layer comprises a material forming a matrix and a compound comprising at least one chemical group capable of being oriented under the effect of an electric voltage and a photonic radiation,wherein the material forming a matrix is a dielectric material and the compound comprising the at least one chemical group capable of being oriented under the effect of an electric voltage and a photonic radiation is a decomposable pore-forming compound;b) treating the composite layer to cross-link the material, thereby forming the matrix;said method further comprising c) subjecting said substrate coated with said composite layer to an electric voltage and a photonic radiation, wherein said subjecting c) is carried out so as to align the chemical groups of the deposited composite layer in a predetermined direction, andd) treating the composite layer to obtain a decomposition of the pore-forming compound, thereby extracting the pore-forming compound. 2. The method according to claim 1, wherein said subjecting c) is carried before or simultaneously with said treating b), and wherein the electric voltage is applied in contact with the substrate. 3. The method according to claim 1, wherein the electric voltage is applied directly to the substrate coated with the layer. 4. The method according to claim 2, wherein the electric voltage is from 1 V to 100 V. 5. The method according to claim 1, wherein the dielectric material forming a matrix is a non-polymeric silicon-based material. 6. The method according to claim 5, wherein the dielectric material is at least one silicon-based material selected from the group consisting of Si, SiO2, SiOC, SiOF, SiC, a hydrogenated silicon carbide, a silicon oxynitride, a silicon nitride, a silicon carbonitride, fluorinated glass, an organofluorosilicate compound, an organosilicate compound, and borosilicate glass. 7. The method according to claim 5, wherein said depositing a) is performed by a plasma enhanced chemical vapor deposition. 8. The method according to claim 1, wherein the decomposable pore-forming compound is a polymer. 9. The method according to claim 8, wherein the polymer is obtained by polymerisation of at least one ethylenic monomer comprising a polar group selected from the group consisting of: an ethylenic monomer comprising one or more —CO2H groups and an ester thereof;an ethylenic monomer comprising one or more CN groups;an ethylenic monomer comprising a heterocyclic group;an ethylenic monomer comprising an —O—CO—R group, wherein R is an alkyl group, or an aryl group;an ethylenic monomer comprising an —OR group, wherein R is an alkyl group, and the —OR group optionally comprises one or more oxygen atoms or one of more amino groups; andan ethylenic monomer comprising a —C(O)R group, wherein R is an alkyl group; and,optionally, one or more monomers selected from the group consisting of:an ethylenic monomer comprising exclusively at least one hydrocarboneous aromatic group; andexclusively a hydrocarboneous ethylenic monomer. 10. The method according to claim 1, wherein said treating b) is performed by heating to an effective temperature, thereby obtaining cross-linking of the material forming the matrix. 11. The method according to claim 1, wherein said treating d) is performed by heating to an effective temperature, thereby obtaining a decomposition of the pore-forming compound. 12. The method according to claim 1, wherein said treating b) and said treating d) are performed simultaneously.