Medvedev Dmitri G, Mausner Leonard F, Meinken George E, Kurczak Slawko O, Schnakenberg Henry, Dodge Cleveland J, Korach Elizabeth M, Srivastava Suresh C
Collider Accelerator Department, Brookhaven National Laboratory, Upton, NY 11793, USA.
Appl Radiat Isot. 2012 Mar;70(3):423-9. doi: 10.1016/j.apradiso.2011.10.007. Epub 2011 Oct 20.
A number of research irradiations of (68)Zn was carried out at Brookhaven Linac Isotope Producer aiming to develop a practical approach to produce the radioisotope (67)Cu through the high energy (68)Zn(p,2p)(67)Cu reaction. Disks of enriched zinc were prepared by electrodeposition of (68)Zn on aluminum or titanium substrate and isolated in the aluminum capsule for irradition. Irradiations were carried out with 128, 105 and 92 MeV protons for at least 24h. After irradiation the disk was chemically processed to measure production yield and specific activity of (67)Cu and to reclaim the target material. The recovered (68)Zn was irradiated and processed again. The chemical procedure comprised BioRad cation exchange, Chelex-100 and anion exchange columns. Reduction of the oxidation degree of copper allowed for more efficient Cu/Co/Zn separation on the anion exchange column. No radionuclides other than copper isotopes were detected in the final product. The chemical yield of (67)Cu reached 92-95% under remote handling conditions in a hot box. Production yield of (67)Cu averaged 29.2 μCi/[μA-h×g (68)Zn] (1.08MBq/[μA-h×g (68)Zn]) in 24h irradiations. The best specific activity achieved was 18.6 mCi/μg (688.2 MBq/μg).
为了开发一种通过高能(68)Zn(p,2p)(67)Cu反应生产放射性同位素(67)Cu的实用方法,在布鲁克海文直线加速器同位素生产装置上进行了多次(68)Zn的研究辐照。通过将(68)Zn电沉积在铝或钛基板上制备富锌盘,并将其隔离在铝胶囊中进行辐照。使用128、105和92兆电子伏特的质子进行辐照至少24小时。辐照后,对盘进行化学处理,以测量(67)Cu的产率和比活度,并回收靶材料。回收的(68)Zn再次进行辐照和处理。化学程序包括BioRad阳离子交换、Chelex-100和阴离子交换柱。降低铜的氧化程度可在阴离子交换柱上更有效地分离Cu/Co/Zn。最终产品中未检测到除铜同位素以外的其他放射性核素。在热室中的远程操作条件下,(67)Cu的化学产率达到92-95%。在24小时辐照中,(67)Cu 的产率平均为29.2微居里/微安-小时×克(68)Zn。实现的最佳比活度为18.6毫居里/微克(688.2兆贝克勒尔/微克)。
