Silver-coated particle and method of producing same

1 . A silver-coated particle comprising a core particle made of a resin particle or an inorganic particle and a silver coating layer formed on a surface of the core particle, wherein, an amount of silver contained in the silver coating layer is 5 to 90 parts by mass with respect to 100 parts of the silver-coated particle, a crystallite diameter of the silver, which is calculated from a diffraction line obtained by filling a sample holder belonging to an X-ray diffraction apparatus with the silver-coated particle; and irradiating X-ray in a range of 2θ/θ=30 to 120 deg., is in a range of 35 nm to 200 nm. 2 . A method of producing a silver-coated particle comprising the steps of: forming a tin absorbing layer on a surface of a core particle by adding the core particle made of a resin particle or an inorganic particle to an aqueous solution of a tin compound; preparing a silver-coated particle precursor, which contains a silver coating layer on the surface of the core particle, by performing electroless plating on the tin absorbing layer, which is formed on the surface of the core particle, by using a reducing agent; and setting a crystallite diameter of the silver, which is measured by X-ray diffraction method, to 35 nm to 200 nm by sintering silver constituting the silver coating layer by heat treating the silver-coated particle precursor at: a temperature of 100° C. or more and less than 250° C. in an air after water-washing and drying the silver-coated particle precursor; or a temperature of 100° C. or more and less than 250° C. in water immediately after water-washing the silver-coated particle precursor, for 0.5 to 10 hours. 3 . A method of producing a conductive adhesive by mixing the silver-coated particle according to claim 1 and a binder resin. 4 . A method of producing a conductive film by applying a resin composition, which is prepared by mixing the silver surface-coated particle according to claim 1 and a binder resin, on a surface of a support film. 5 . A method of producing a conductive spacer by pasting two substrate plates after applying a resin composition, which is prepared by mixing the silver surface-coated particle according to claim 1 and a binder resin, on one or both surfaces of the two substrate plates.