Patent Number: 058621938
Section: claims

1. A method for producing a radionuclide via a (n,.gamma.) Szilard-Chalmers reaction, the method comprising irradiating a target with neutrons in the presence of an oxidizing agent to form an irradiated mixture, the target comprising a metal target nuclide in the form of a metallic element or an inorganic metallic compound or salt, the irradiated mixture comprising (a) an oxidized product nuclide formed by reaction of the target nuclide with neutrons via a (n,.gamma.) reaction and with the oxidizing agent via an oxidation reaction, and (b) unreacted target nuclide which has not reacted with a neutron or with the oxidizing agent,  controlling oxidation of target nuclide which has not reacted with a neutron, and  separating the oxidized product nuclide from unreacted target nuclide.  irradiating a target with neutrons in the presence of an oxidizing agent to form an irradiated mixture, the target comprising a metal target nuclide in the form of a metallic element or an inorganic metallic compound or salt, the irradiated mixture comprising (a) an oxidized product nuclide formed by reaction of the target nuclide with the neutrons and with the oxidizing agent and (b) unreacted target nuclide which has not reacted with a neutron or with the oxidizing agent, the amount of oxidizing agent present during irradiation ranging from a stoichiometric amount to about four times the stoichiometric amount required for the target nuclide to react with the oxidizing agent to form the oxidized product nuclide, and  separating the oxidized product nuclide from unreacted target nuclide.  irradiating a target with neutrons at a pressure which is less than atmospheric pressure and in the presence of an oxidizing agent to form an irradiated mixture, the target comprising a metal target nuclide in the form of a metallic element or an inorganic metallic compound or salt, the irradiated mixture comprising (a) an oxidized product nuclide formed by reaction of the target nuclide with the neutrons and with the oxidizing agent, and (b) unreacted target nuclide which has not reacted with a neutron or with the oxidizing agent,  separating the oxidized product nuclide from unreacted target nuclide.  irradiating a target with neutrons in the presence of an oxidizing agent to form an irradiated mixture, the target comprising a metal target nuclide in the form of a metallic element or an inorganic metallic compound or salt, the irradiated mixture comprising (a) an oxidized product nuclide formed by reaction of the target nuclide with the neutrons and with the oxidizing agent and (b) unreacted target nuclide which has not reacted with a neutron or with the oxidizing agent,  cooling the target while the target is being irradiated, and  separating the oxidized product nuclide from unreacted target nuclide.  irradiating a target with neutrons in the presence of an oxidizing agent to form an irradiated mixture, the target comprising a metal target nuclide present in a target layer formed on the surface of a substrate, the target layer comprising a metallic element or an inorganic metallic compound or salt and having a projected thickness of not more than about 150 nm, the irradiated mixture comprising (a) an oxidized product nuclide formed by reaction of the metal target nuclide with the neutrons and with the oxidizing agent, and (b) unreacted target nuclide which has not reacted with a neutron or with the oxidizing agent,  separating the oxidized product nuclide from unreacted target nuclide by a protocol which includes the step of exposing the oxidized product nuclides to a non-oxidizing solvent.  preparing a target comprising a metal target nuclide in the form of a metallic element or an inorganic metallic compound or salt,  allowing the prepared target to age for at least about 24 hours,  irradiating the aged target with neutrons in the presence of an oxidizing agent to form an irradiated mixture, the irradiated mixture comprising (a) an oxidized product nuclide formed by reaction of the target nuclide with the neutrons and with the oxidizing agent, and (b) unreacted target nuclide which has not reacted with a neutron or with the oxidizing agent, and  separating the oxidized product nuclide from unreacted target nuclide.  preparing a target comprising a rhenium target nuclide, .sup.t Re, having an oxidation state of not more than .sup.+ 6 in the form of elemental rhenium or an inorganic rhenium compound or salt, where t is 185 for producing .sup.186 Re and t is 187 for producing .sup.188 Re,  allowing the prepared target to age for at least about 24 hours,  irradiating the aged target with neutrons at a pressure which is less than atmospheric pressure and in the presence of an oxidizing agent for at least about 1 hour to form an irradiated mixture, the irradiated mixture comprising (a) an oxidized product nuclide, .sup.p Re, formed by reaction of .sup.t Re with neutrons via a (n,.gamma.) reaction and with the oxidizing agent via an oxidation reaction, where p is 186 when t is 185 and where p is 188 when t is 187, and (b) unreacted target nuclide which has not reacted with a neutron or with the oxidizing agent,  cooling the target while the target is being irradiated, and  separating the oxidized product nuclide from unreacted target nuclide to form a product mixture, the product mixture being isotopically enriched in the product nuclide by a factor of at least about 1.5 relative to the irradiated mixture. 2. The method of claim 1 wherein the target comprises elemental rhenium or an inorganic rhenium compound or salt which includes a .sup.t Re target nuclide in an oxidation state of not more than +6, where t is 185 or 187, and the oxidized product nuclide is .sup.p ReO.sub.4.sup.-, where p is 186 when t is 185 and p is 188 when t is 187. 3. The method of claim 1 wherein the target consists essentially of elemental rhenium. 4. The method of claim 1 wherein the target comprises an inorganic rhenium compound or a salt thereof which includes a .sup.t Re target nuclide in an oxidation state of not more than +6. 5. The method of claim 1 wherein the target comprises a rhenium oxide or a salt thereof which includes a .sup.t Re target nuclide in an oxidation state of not more than +6. 6. The method of claim 1 wherein the target comprises a rhenium oxide or a salt thereof which includes a .sup.t Re target nuclide in an oxidation state of not more than +6, and either or both of a M-oxide or a M-hydroxide where M is a metal other than rhenium. 7. The method of claim 6 wherein M is selected from the group of metals consisting of tin, titanium and magnesium. 8. The method of claim 1 wherein the oxidizing agent is oxygen. 9. The method of claim 1 wherein oxidation of target nuclide which has not reacted with a neutron is controlled by controlling the amount of oxidizing agent available to react with the target nuclide. 10. The method of claim 1 wherein oxidation of target nuclide which has not reacted with a neutron is controlled by controlling the temperature of the target during irradiation. 11. The method of claim 1 wherein the oxidized product nuclide is separated from unreacted target nuclide by a protocol that includes exposing the oxidized product nuclide to a non-oxidizing solvent. 12. A method for producing a radionuclide via a (n,.gamma.) Szilard-Chalmers reaction, the method comprising 13. The method of claim 12 wherein the target comprises elemental rhenium or an inorganic rhenium compound or salt which includes a .sup.t Re target nuclide in an oxidation state of not more than +6, where t is 185 or 187, and the oxidized product nuclide is .sup.p ReO.sub.4.sup.-, where p is 186 when t is 185 and p is 188 when t is 187. 14. A method for producing a radionuclide via a (n,.gamma.) Szilard-Chalmers reaction, the method comprising 15. The method of claim 14 wherein the target comprises elemental rhenium or an inorganic rhenium compound or salt which includes a .sup.t Re target nuclide in an oxidation state of not more than +6, where t is 185 or 187, and the oxidized product nuclide is .sup.p ReO.sub.4.sup.-, where p is 186 when t is 185 and p is 188 when t is 187. 16. The method of claim 14 wherein the target is irradiated at a pressure which is less than about 1 mm Hg. 17. A method for producing a radionuclide via a (n,.gamma.) Szilard-Chalmers reaction, the method comprising 18. The method of claim 17 wherein the target comprises elemental rhenium or an inorganic rhenium compound or salt which includes a .sup.t Re target nuclide in an oxidation state of not more than +6, where t is 185 or 187, and the oxidized product nuclide is .sup.p ReO.sub.4.sup.-, where p is 186 when t is 185 and p is 188 when t is 187. 19. The method of claim 17 wherein the target is cooled by contacting the target or a housing enclosing the target with a circulating fluid having a temperature, before contacting the target or housing, of not more than about 100.degree. C. 20. A method for producing a radionuclide via a (n,.gamma.) Szilard-Chalmers reaction, the method comprising 21. The method of claim 20 wherein the target comprises elemental rhenium or an inorganic rhenium compound or salt which includes a .sup.t Re target nuclide in an oxidation state of not more than +6, where t is 185 or 187, and the oxidized product nuclide is .sup.p ReO.sub.4.sup.-, where p is 186 when t is 185 and p is 188 when t is 187. 22. The method of claim 20 wherein the projected thickness of the target layer is not more than about 15 nm. 23. A method for producing a radionuclide via a (n,.gamma.) Szilard-Chalmers reaction, the method comprising 24. The method of claim 23 wherein the target comprises elemental rhenium or an inorganic rhenium compound or salt which includes a .sup.t Re target nuclide in an oxidation state of not more than +6, where t is 185 or 187, and the oxidized product nuclide is .sup.p ReO.sub.4.sup.-, where p is 186 when t is 185 and p is 188 when t is 187. 25. The method of claim 23 wherein the prepared target is allowed to age for at least about 48 hours before being irradiated. 26. The method of claim 23 wherein the prepared target is allowed to age for at least about one week before being irradiated. 27. A method for producing .sup.186 Re or .sup.188 Re via a (n,.gamma.) Szilard-Chalmers reaction, the method comprising 28. The method of claim 27 wherein the product mixture is isotopically enriched in the product nuclide by a factor of at least about 3 relative to the irradiated mixture. 29. The method of claim 1 wherein the oxidizing agent is molecular oxygen present in an atmosphere surrounding the target. 30. The method of claim 1 wherein the oxidizing agent is atomic oxygen present in the target. 31. The method of claim 30 wherein the target comprises a rhenium oxide or a salt thereof which includes a .sup.185 Re or .sup.187 Re target nuclide in an oxidation state of not more than +6, and a M-oxide, where M is a metal other than rhenium. 32. The method of claim 31 wherein M is magnesium. 33. The method of claim 31 wherein M is tin. 34. The method of claim 31 wherein M is titanium. 35. The method of claim 30 wherein the target comprises a rhenium oxide or a salt thereof which includes a .sup.185 Re or .sup.187 Re target nuclide in an oxidation state of not more than +6, and a M-hydroxide where M is a metal other than rhenium. 36. The method of claim 35 wherein M is magnesium. 37. The method of claim 35 wherein M is tin. 38. The method of claim 35 wherein M is titanium. 39. The method of claim 12 wherein the oxidizing agent is atomic oxygen present in the target. 40. The method of claim 39 wherein the target comprises a rhenium oxide or a salt thereof which includes a .sup.185 Re or .sup.187 Re target nuclide in an oxidation state of not more than +6, and a M-oxide, where M is a metal other than rhenium. 41. The method of claim 40 wherein M is magnesium. 42. The method of claim 17 wherein the oxidizing agent is atomic oxygen present in the target. 43. The method of claim 20 wherein the oxidizing agent is atomic oxygen present in the target. 44. The method of claim 23 wherein the oxidizing agent is atomic oxygen present in the target. 45. The method of claim 27 wherein the oxidizing agent is atomic oxygen present in the target.