Composite material for absorbent article, and method for manufacturing said material

1 . A composite material for an absorbent article, comprising a substrate material having a surface which is positively or negatively electrostatically charged in a predetermined solvent selected from a non-polar organic solvent, a polar organic solvent, and a mixed solvent of a polar organic solvent and water, and a water absorbent material adsorbed thereon by electrostatic interaction, having a surface which is electrostatically charged to an electric charge opposite to that of the surface of the substrate material, wherein the substrate material comprises a fibrous base material or resinous base material and a polyelectrolyte layer provided in a surface layer thereof, and/or, the water absorbent material has a water absorbent particulate base material or water absorbent fibrous base material and a polyelectrolyte layer provided in a surface layer thereof. 2 . The composite material according to claim 1 , wherein the substrate material and/or the water absorbent material have a plurality of polyelectrolyte layers stacked together, and in the plurality of polyelectrolyte layers, polyelectrolyte layers that are electrostatically charged to electric charges opposite to each other in the predetermined solvent are adjacent to each other. 3 . The composite material according to claim 1 , wherein the substrate material and water absorbent material have a zeta potential of 20 mV or more in absolute value in the predetermined solvent, and are balanced in charge. 4 . The composite material according to claim 1 , wherein the substrate material is a second or (m+1)-th coated material produced by a method comprising the following steps (a 1 ) to (c 1 ): (a 1 ) contacting, in a predetermined solvent selected from water, a non-polar organic solvent, a polar organic solvent, and a mixed solvent of a polar organic solvent and water, a fibrous base material or resinous base material having a surface which is positively or negatively electrostatically charged in the predetermined solvent with a polyelectrolyte which is electrostatically charged to an electric charge opposite to that of the surface of the fibrous base material or resinous base material in the predetermined solvent to produce a first coated material having in a surface layer thereof a first polyelectrolyte layer; (b 1 ) contacting, in a predetermined solvent selected from water, a non-polar organic solvent, a polar organic solvent, and a mixed solvent of a polar organic solvent and water, a k 1 -th coated material, wherein k 1 is an integer of 1 or more, having in a surface layer thereof a k 1 -th polyelectrolyte layer which is positively or negatively electrostatically charged in the predetermined solvent with a polyelectrolyte which is electrostatically charged to an electric charge opposite to that of the k 1 -th polyelectrolyte layer in the predetermined solvent to produce a (k 1 +1)-th coated material having in a surface layer thereof a (k 1 +1)-th polyelectrolyte layer; and (c 1 ) performing step (b 1 ) at k 1 =1 to produce a second coated material having in a surface layer thereof a second polyelectrolyte layer, or performing step (b 1 ) repeatedly from k 1 =1 to k 1 =m, wherein m is an integer of 2 or more, to produce a (m+1)-th coated material having in a surface layer thereof a (m+1)-th polyelectrolyte layer. 5 . The composite material according to claim 4 , wherein the second or (m+1)-th coated material has a zeta potential of 20 mV or more in absolute value. 6 . The composite material according to claim 1 , wherein the water absorbent material is a second or (n+1)-th coated material produced by a method comprising the following step (a 2 ) to (c 2 ): (a 2 ) contacting, in a predetermined solvent selected from a non-polar organic solvent, a polar organic solvent, and a mixed solvent of a polar organic solvent and water, a water absorbent particulate base material or water absorbent fibrous base material having a surface which is positively or negatively electrostatically charged in the predetermined solvent with a polyelectrolyte which is electrostatically charged to an electric charge opposite to that of the surface of the water absorbent particulate base material or water absorbent fibrous base material in the predetermined solvent to produce a first coated material having in a surface layer thereof a first polyelectrolyte layer; (b 2 ) contacting, in a predetermined solvent selected from a non-polar organic solvent, a polar organic solvent, and a mixed solvent of a polar organic solvent and water, a k 2 -th coated material, wherein k 2 is an integer of 1 or more, having in a surface layer thereof a k 2 -th polyelectrolyte layer which is positively or negatively electrostatically charged in the predetermined solvent with a polyelectrolyte which is electrostatically charged to an electric charge opposite to that of the k 1 -th polyelectrolyte layer in the predetermined solvent to produce a (k 2 +1)-th coated material having in a surface layer thereof a (k 2 +1)-th polyelectrolyte layer; and (c 2 ) performing step (b 2 ) at k 2 =1 to produce a second coated material having in a surface layer thereof a second polyelectrolyte layer, or performing step (b 2 ) repeatedly from k 2 =1 to k 2 =n, wherein n is an integer of 2 or more, to produce a (n+1)-th coated material having in a surface layer thereof a (n+1)-th polyelectrolyte layer. 7 . The composite material according to claim 6 , wherein the second or (n+1)-th coated material has a zeta potential of 20 mV or more in absolute value. 8 . The composite material according to claim 1 , wherein the polar organic solvent is a monohydric alcohol having 1 to 3 carbon atoms. 9 . The composite material according to claim 1 , wherein the fibrous base material of the substrate material is a thermoplastic resin fiber or aggregates thereof. 10 . The composite material according to claim 1 , wherein the fibrous base material or resinous base material of the substrate material is a nonwoven fabric sheet or resin sheet. 11 . A method for producing a composite material for an absorbent article, comprising an adsorption step in which, in a predetermined solvent selected from a non-polar organic solvent, a polar organic solvent, and a mixed solvent of a polar organic solvent and water, a substrate material having a surface which is positively or negatively electrostatically charged in the predetermined solvent is contacted with a water absorbent material having a surface which is electrostatically charged to an electric charge opposite to that of the surface of the substrate material to adsorb the water absorbent material onto the substrate material by electrostatic interaction, wherein the substrate material comprises a fibrous base material or resinous base material and a polyelectrolyte layer provided in a surface layer thereof, and/or, the water absorbent material has a water absorbent particulate base material or water absorbent fibrous base material and a polyelectrolyte layer provided in a surface layer thereof. 12 . The production method according to claim 11 , wherein the substrate material and/or the water absorbent material have a plurality of polyelectrolyte layers stacked together, and in the plurality of polyelectrolyte layers, polyelectrolyte layers that are electrostatically charged to electric charges opposite to each other in the predetermined solvent are adjacent to each other. 13 . The production method according to claim 11 , wherein the substrate material and water absorbent material have a zeta potential of 20 mV or more in absolute value in the predetermined solvent, and are balanced in charge. 14 . The production method