Method of producing thermoelectric conversion element and method of preparation dispersion for thermoelectric conversion layer

1 . A method of producing a thermoelectric conversion element which has, on a substrate, a first electrode, a thermoelectric conversion layer, and a second electrode, which method comprises steps of: preparing a dispersion for the thermoelectric conversion layer containing a nano conductive material by subjecting at least the nano conductive material and a dispersion medium to a high-speed rotating thin film dispersion method; and applying the prepared dispersion for a thermoelectric conversion layer on or above the substrate and then drying the dispersion for a thermoelectric conversion layer. 2 . The method of producing a thermoelectric conversion element according to claim 1 , wherein solid content concentration of the dispersion for a thermoelectric conversion layer is 0.5 to 20 w/v %. 3 . The method of producing a thermoelectric conversion element according to claim 1 , wherein content of the nano conductive material in the solid contents of the dispersion for a thermoelectric conversion layer is 10% by mass or more. 4 . The method of producing a thermoelectric conversion element according to claim 1 , wherein a viscosity of the dispersion for a thermoelectric conversion layer is 10 mPa·s or more. 5 . The method of producing a thermoelectric conversion element according to claim 1 , wherein the high-speed rotating thin film dispersion method is performed at a circumferential velocity of 10 to 40 m/sec. 6 . The method of producing a thermoelectric conversion element according to claim 1 , wherein a dispersant is further subjected to the high-speed rotating thin film dispersion method. 7 . The method of producing a thermoelectric conversion element according to claim 6 , wherein the dispersant is a conjugated polymer. 8 . The method of producing a thermoelectric conversion element according to claim 1 , wherein a non-conjugated polymer is further subjected to the high-speed rotating thin film dispersion method. 9 . The method of producing a thermoelectric conversion element according to claim 1 , wherein the nano conductive material is at least one kind of material selected from the group consisting of a carbon nanotube, a carbon nanofiber, fullerene, graphite, graphene, carbon nanoparticles and a metal nanowire. 10 . The method of producing a thermoelectric conversion element according to claim 1 , wherein the nano conductive material is a carbon nanotube. 11 . The method of producing a thermoelectric conversion element according to claim 1 , wherein the nano conductive material is a single-walled carbon nanotube, the diameter of the single-walled carbon nanotube is 1.5 nm to 2.0 nm, the length of the single-walled carbon nanotube is 1 μm or more, and the G/D ratio of the single-walled carbon nanotube is 30 or more. 12 . The method of producing a thermoelectric conversion element according to claim 1 , wherein the dispersion for a thermoelectric conversion layer is applied on or above the substrate by a printing method. 13 . The method of producing a thermoelectric conversion element according to claim 1 , wherein an average particle diameter D of the nano conductive material, which is measured by a dynamic light scattering method, in the dispersion for a thermoelectric conversion layer is 1,000 nm or less. 14 . The method of producing a thermoelectric conversion element according to claim 1 , wherein a ratio [dD/D] between a half-value width dD in the particle size distribution and an average particle diameter D, of the nano conductive material, which is measured by a dynamic light scattering method, in the dispersion for a thermoelectric conversion layer is 5 or less. 15 . A method of preparing a dispersion for a thermoelectric conversion layer, the dispersion being used for forming a thermoelectric conversion layer of a thermoelectric conversion element, which method comprises: dispersing a nano conductive material into a dispersion medium by subjecting at least the nano conductive material and the dispersion medium to a high-speed rotating thin film dispersion method.