1984
DOI: 10.1016/0020-708x(84)90110-8
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Production of carrier-free 117mSn

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Cited by 35 publications
(21 citation statements)
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“…α or β − particles, conversion and/or Auger electrons, are of great interest. Among the β − emitters, the radionuclides 32 The radionuclides 211 At and 103 Pd are produced at cyclotrons. All the other radionuclides are produced via irradiations in a nuclear reactor.…”
Section: Therapeutic Radionuclidesmentioning
confidence: 99%
See 1 more Smart Citation
“…α or β − particles, conversion and/or Auger electrons, are of great interest. Among the β − emitters, the radionuclides 32 The radionuclides 211 At and 103 Pd are produced at cyclotrons. All the other radionuclides are produced via irradiations in a nuclear reactor.…”
Section: Therapeutic Radionuclidesmentioning
confidence: 99%
“…Some production data for the three radionuclides are available [cf. [32][33][34][35] but the database needs further improvement. More detailed information on the Auger electron spectra is also needed.…”
Section: Novel Therapeutic Radionuclidesmentioning
confidence: 99%
“…The ( ,3n) reaction on a highly enriched 116 Cd target (cf. [119][120][121][122]) was found to be more interesting and an efficient chemical separation method for 117m Sn was worked out [119]. Very recently, in an effort by Clear Vascular Inc. it has been shown that only this reaction can lead to a product of specific activity and chemical purity high enough to meet the requirement for medical application [123].…”
Section: Advantageous Production Of Radioactive Isomeric States Usingmentioning
confidence: 99%
“…A simple procedure was developed that recovers 98.5% of the oxide based on precipitation of titanium at basic pH followed by conversion to the oxide using higher temperature. 19 Titanium may be recovered and easily reused since the only titanium activation product is the short lived Ti-51 (t½ = 5.8 minutes) produced by the 50 Ti(n, ) reaction using thermal neutrons. Other radionuclidic impurities that have been detected in recycled material are Ta-182 (t½ = 114.4 days) and Zn-65 (t½ = 244 days).…”
Section: Severalmentioning
confidence: 99%
“…Using the 115m In (, pn) 117m Sn reaction over the energy range of 45 to 20 MeV, a relatively pure product is obtained; however, with very small yields. 50 In addition, the nuclear reaction 116 Cd(, 3n) 117m Sn is also very useful for the production of NCA Sn-117m. The thick target yield over the energy range 47  20 MeV is about 150 Ci/Ah.…”
Section: Jpmer 117mmentioning
confidence: 99%