| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | Method of fabricating indium-111 radioactive isotope | US13352550 | 2012-01-18 | US08647407B2 | 2014-02-11 | Wuu-Jyh Lin; Chien-Hsin Lu; Jenn-Tzong Chen; Sun-Rong Hwang; Ying-Chieh Wang |
| The present invention provides a method for fabricating an indium(In)-111 radioactive isotope. A target of cadmium(Cd)-112 is processed through steps of dissolving with heat, absorbing, washing, desorbing and drying for obtaining the In-111 radioactive isotope. Thus, chemical separation is coordinated with the target for fabricating the In-111 radioactive isotope with high efficiency and low cost for production procedure. | ||||||
| 2 | Method of Fabricating Indium-111 Radioactive Isotope | US13352550 | 2012-01-18 | US20130104697A1 | 2013-05-02 | Wuu-Jyh Lin; Chien-Hsin Lu; Jenn-Tzong Chen; Sun-Rong Hwang; Ying-Chieh Wang |
| The present invention provides a method for fabricating an indium(In)-111 radioactive isotope. A target of cadmium(Cd)-112 is processed through steps of dissolving with heat, absorbing, washing, desorbing and drying for obtaining the In-111 radioactive isotope. Thus, chemical separation is coordinated with the target for fabricating the In-111 radioactive isotope with high efficiency and low cost for production procedure. | ||||||
| 3 | Indium generator | US3561932D | 1967-01-26 | US3561932A | 1971-02-09 | GRUVERMAN IRWIN J; ROCCO GREGORY G |
| A GENERATOR OF A DAUGHTER RADIONUCLIDE, PARTICULARLY RADIOACTIVE INDIUM (IN113M), AND A METHOD OF LOADING A PARTICULATE SUBSTRATE OF THE GENERATOR WITH A PARENT RADIONUCLIDE. THE DAUGHTER RADIONUCLIDE, WHICH RESULTS FROM THE RADIOACTIVE DECAY OF ITS PARENT, IS SELECTIVELY EXTRACTED FROM THE SUBSTRATE BY A MINERAL ACID SOOLVENT (ELUANT),
SUCH AS HYDROCHLORIC ACID (HC1) AT A CONCENTRATION LESS THAN ONE-TENTH NORMAL (0.1 N). |
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| 4 | General radioisotope production method employing PET-style target systems | US13485885 | 2012-05-31 | US09269467B2 | 2016-02-23 | Nigel Raymond Stevenson |
| Methods for producing a radioisotope by a charged particle irradiation of a fluid target matrix are provided. A method of producing a radioisotope includes irradiating a fluid target matrix comprising a compound of a target isotope with a charged particle beam to transform at least a portion of the target isotope to the radioisotope, and isolating the radioisotope from the irradiated fluid target matrix. The target isotope may be an isotope of cadmium, an isotope of thallium, an isotope of zinc, an isotope of gallium, an isotope of tellurium, an isotope of molybdenum, an isotope of rhodium, an isotope of selenium, an isotope of nickel, an isotope of yttrium, an isotope of strontium, an isotope of bismuth, an isotope of tungsten, and an isotope of titanium, provided that the target isotope is not Mo-100. | ||||||
| 5 | METHOD OF PRE-TREATING AN ADSORBENT FOR A CHROMATOGRAPHIC SEPARATION | US13707824 | 2012-12-07 | US20130220928A1 | 2013-08-29 | Steve OELSNER |
| A method of treating an adsorbent for a chromatographic separation. The method involves sonicating particles of an inorganic metal oxide having fragile edges in the absence of any alkylating or acylating agent to form smoothened particles of the inorganic metal oxide and washing the smoothened particles of the inorganic metal oxide to remove fine particulate matter to produce a treated adsorbent. The treated adsorbent can be used in a method of isolating a daughter radioisotope from a daughter radioisotope that is produced from the parent radioisotope by radioactive decay. | ||||||
| 6 | General Radioisotope Production Method Employing PET-Style Target Systems | US13485885 | 2012-05-31 | US20120307953A1 | 2012-12-06 | Nigel Raymond Stevenson |
| Methods for producing a radioisotope by a charged particle irradiation of a fluid target matrix are provided. A method of producing a radioisotope includes irradiating a fluid target matrix comprising a compound of a target isotope with a charged particle beam to transform at least a portion of the target isotope to the radioisotope, and isolating the radioisotope from the irradiated fluid target matrix. The target isotope may be an isotope of cadmium, an isotope of thallium, an isotope of zinc, an isotope of gallium, an isotope of tellurium, an isotope of molybdenum, an isotope of rhodium, an isotope of selenium, an isotope of nickel, an isotope of yttrium, an isotope of strontium, an isotope of bismuth, an isotope of tungsten, and an isotope of titanium, provided that the target isotope is not Mo-100. | ||||||
| 7 | GENERAL RADIOISOTOPE PRODUCTION METHOD EMPLOYING PET-STYLE TARGET SYSTEMS | EP12727012.2 | 2012-06-01 | EP2715739B1 | 2014-08-20 | Stevenson, Nigel R. |
| 8 | GENERAL RADIOISOTOPE PRODUCTION METHOD EMPLOYING PET-STYLE TARGET SYSTEMS | EP12727012.2 | 2012-06-01 | EP2715739A1 | 2014-04-09 | Stevenson, Nigel R. |
| Methods for producing a radioisotope by a charged particle irradiation of a fluid target matrix are provided. A method of producing a radioisotope includes irradiating a fluid target matrix comprising a compound of a target isotope with a charged particle beam to transform at least a portion of the target isotope to the radioisotope, and isolating the radioisotope from the irradiated fluid target matrix. The target isotope may be an isotope of cadmium, an isotope of thallium, an isotope of zinc, an isotope of gallium, an isotope of tellurium, an isotope of molybdenum, an isotope of rhodium, an isotope of selenium, an isotope of nickel, an isotope of yttrium, an isotope of strontium, an isotope of bismuth, an isotope of tungsten, and an isotope of titanium, provided that the target isotope is not Mo-100. | ||||||
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