METHOD FOR PRODUCING 225Ac

1 . A method for producing 225 Ac, comprising: a method (X) for purifying a 226 Ra-containing solution, comprising an adsorption step (R 1 ) of allowing a 226 Ra ion to adsorb onto a carrier having a function of selectively adsorbing a divalent cation by bringing a 226Ra-containing solution (a) into contact with the carrier under an alkaline condition, and an elution step (R 2 ) of eluting the 226 Ra ion from the carrier under an acidic condition; a method for producing a 226 Ra target, comprising an electrodeposition liquid preparation step (R 4 ) of preparing an electrodeposition liquid by using a purified 226 Ra-containing solution (b) obtained by the method (X), and an electrodeposition step (R 5 ) of electrodepositing a 226 Ra-containing substance on a substrate by using the electrodeposition liquid; and a step (A 1 ) of irradiating a 226 Ra target produced by the method for producing a 226 Ra target with at least one kind selected from a charged particle, a photon, and a neutron by using an accelerator to produce 225 Ac. 2 . The method for producing 225 Ac according to claim 1 , wherein the carrier has a divalent cation-exchange group. 3 . The method for producing 225 Ac according to claim 1 , wherein the carrier has an iminodiacetic acid group. 4 . The method for producing 225 Ac according to claim 1 , the method (X) further comprises a step (R 3 ) of performing anion exchange by passing a solution containing a 226 Ra ion eluted in the elution step (R 2 ) through an anion exchange resin. 5 . The method for producing 225 Ac according to claim 1 , wherein the 226 Ra-containing solution (a) is obtained by separating an 225 Ac component from a solution in which a 226 Ra target irradiated with at least one kind selected from a charged particle, a photon, and a neutron by using an accelerator has been dissolved. 6 . The method for producing 225 Ac according to claim 1 , wherein the carrier is charged in a tube. 7 . The method for producing 225 Ac according to claim 1 , further comprising a purification method (Y) comprising the steps: (R 6 ) of allowing a 226 Ra ion to adsorb onto a carrier having a function of selectively adsorbing a divalent cation by bringing a 226 Ra-containing solution (c) after the electrodeposition step (R 5 ) into contact with the carrier under an alkaline condition; and (R 7 ) of eluting the 226 Ra ion from the carrier under an acidic condition, wherein a purified 226 Ra-containing solution (d) obtained by the purification method (Y) is mixed with the purified 226 Ra-containing solution (b), and an electrodeposition liquid is prepared in the electrodeposition liquid preparation step (R 4 ). 8 . The method for producing 225 Ac according to claim 7 , the purification method (Y) further comprises a step (R 8 ) of performing anion exchange by passing a solution containing a 226 Ra ion eluted in the elution step (R 7 ) through an anion exchange resin. 9 . The method for producing 225 Ac according to claim 1 , further comprising the steps: (A 2 ) of dissolving the 226 Ra target irradiated in the irradiation step (A 1 ); and (A 3 ) of separating a colloidal 225 Ac component by alkalizing the solution obtained in the dissolution step (A 2 ).