Patent Number: 044877382
Section: claims

1. A method of producing .sup.67 Cu by proton spallation, comprising the steps of irradiating a target consisting essentially of zinc oxide with a beam of protons having an energy of approximately 800 MeV to produce spallogenic reaction products including .sup.67 Cu, and subsequently separating said .sup.67 Cu from said reaction products by ion exchange chromatography. 2. The method defined in claim 1 wherein the separation of the .sup.67 Cu by ion exchange chromatography comprises the steps of dissolving the irradiated target in a first concentrated acid solution, adding a palladium salt to said first concentrated acid solution, adding powdered metallic zinc to said first concentrated acid solution to induce precipitation of a first precipitate of palladium and spallogenic copper, dissolving said first precipitate of palladium and spallogenic copper in a second concentrated acid solution, sparging said second concentrated acid solution with gaseous hydrogen sulfide to induce precipitation of a second precipitate of palladium and spallogenic copper, dissolving said second precipitate of palladium and spallogenic copper in a third concentrated acid solution, and separating the palladium from the spallogenic copper by loading said third concentrated acid solution into an anion exchange resin, washing the column with a strong acid solution to remove the palladium, and subsequently eluting the spallogenic copper from the column by elution with a relatively weaker acid solution. 3. The method defined in claim 2 wherein said third concentrated acid solution comprises an approximately 9 molar solution of HCl and HNO.sub.3 in a ratio of approximately nine to one, and wherein said relatively weaker acid solution comprises approximately 2 molar HCl. 4. The method defined in claim 2 wherein said palladium salt is added as a solution of palladium chloride. 5. The method defined in claim 1 wherein the separation of the .sup.67 Cu by ion exchange chromatography comprises the steps of dissolving the irradiated target in a first concentrated acid solution, adding a palladium salt to said first concentrated acid solution, adding powdered metallic zinc to said first concentrated acid solution to induce precipitation of metallic palladium and metallic spallogenic copper, dissolving the precipitated palladium and spallogenic copper in a second concentrated acid solution, loading the second concentrated acid solution into a first cation exchange resin, eluting said first cation exchange column with a strong acid solution to elute palladium and copper, loading the eluate containing palladium and copper from the first cation exchange column into an anion exchange column and eluting said anion exchange column with a relatively weak acid solution to elute the spallogenic copper from said cation exchange column, loading the eluate solution containing the spallogenic copper from said cation exchange column into a second anion exchange column, and eluting said second anion exchange column with an acetone/water HCl solution to obtain an eluate solution containing said spallogenic copper. 6. The method of claim 5 wherin said acetone/water HCl solution consists essentially of 80% (by volume) acetone and 20% (by volume) water, acidified to 0.5 molar HCl. 7. The method defined in claim 5 wherein the eluate obtained from said cation exchange column is evaporated to dryness and the residue dissolved in an acetone/water solution consisting essentially of 80% acetone and 20% water (by volume) and acidified to 0.1M HCl, and wherein said acetone/water solution is passed through said second anion exchange column and eluted with 0.5M HCl solution of 80% acetone and 20% water.