Production, separation and supply prospects of 67Cu with the development of fast neutron sources and photonuclear technology

ArjunGopalakrishna; Saraswatula VenkataSuryanarayana; HaladharaNaik; Tanuja SushantDixit; Basant KumarNayak; AmitKumar; PravindMaletha; KiranThakur; AbhayDeshpande; RamamoorthyKrishnan; Kamaldeep; SharmilaBanerjee; AlokSaxena

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Production, separation and supply prospects of 67Cu with the development of fast neutron sources and photonuclear technology

机译：67CU的生产，分离和供应前景随着快速中子源和光核技术的发展

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Experimental investigations have been carried out on the production of a promising therapeutic radionuclide 67Cu via the 67Zn(n,p)67Cu, 68Zn(n,x)67Cu, and 68Zn(γ,p)67Cu reaction routes. Natural zinc metal foils were irradiated with 14.1 MeV neutrons and bremsstrahlung of end-point energy 15 MeV. Radioactivity levels of 67Cu and other radioisotopes co-produced were determined by the quantification of photo-peaks by off-line γ-ray spectrometry. No carrier added 67Cu was separated from the irradiated zinc by solvent extraction. Yields >90% and high levels of radionuclidic purity were achieved. These studies indicate that the growth and development of intense fast neutron sources and photonuclear technology, will possibly aid in the sustained supply of 67Cu.

机译：通过67zn（n，p）67cu，68zn（n，x）67cu和68zn（γ，p）的67cu反应途径，已经对促进治疗放射性核素67cu的生产进行了实验研究。用14.1meV中子和终点能量的Bremsstrah隆起，将天然锌金属箔和终点能源15mev辐照。通过偏离线γ射线光谱法测定光峰的定量测量67cu和其他放射性同位素的放射性水平。通过溶剂萃取，没有将载体添加67cu与辐照锌分离。达到产量> 90％和高水平的放射性核酸纯度。这些研究表明，激烈的快速中子源和光核技术的生长和发展，可能有助于67Cu的持续供应。

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来源
《Radiochimica Acta: International Journal for Chemical Aspects of Nuclear Science and Technology》 |2018年第7期|共9页
作者
ArjunGopalakrishna; Saraswatula VenkataSuryanarayana; HaladharaNaik; Tanuja SushantDixit; Basant KumarNayak; AmitKumar; PravindMaletha; KiranThakur; AbhayDeshpande; RamamoorthyKrishnan; Kamaldeep; SharmilaBanerjee; AlokSaxena;
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作者单位

Medical Cyclotron Facility Board of Radiation and Isotope Technology Mumbai 400012 India;

Nuclear Physics Division Bhabha Atomic Research Centre Mumbai 400085 India;

Radiochemistry Division Bhabha Atomic Research Centre Mumbai 400085 India;

Society for Applied Microwave Electronics Engineering and Research IIT Campus Mumbai 400076 India;

Nuclear Physics Division Bhabha Atomic Research Centre Mumbai 400085 India;

Medical Cyclotron Facility Board of Radiation and Isotope Technology Mumbai 400012 India;

Radiation Medicine Centre Bhabha Atomic Research Centre Mumbai 400 012 India;

Society for Applied Microwave Electronics Engineering and Research IIT Campus Mumbai 400076 India;

Society for Applied Microwave Electronics Engineering and Research IIT Campus Mumbai 400076 India;

Society for Applied Microwave Electronics Engineering and Research IIT Campus Mumbai 400076 India;

Radiation Medicine Centre Bhabha Atomic Research Centre Mumbai 400 012 India;

Radiation Medicine Centre Bhabha Atomic Research Centre Mumbai 400 012 India;

Nuclear Physics Division Bhabha Atomic Research Centre Mumbai 400085 India;

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原文格式 PDF
正文语种 eng
中图分类放射性元素、放射化学;
关键词
Cu-67; medical radionuclide; accelerator neutrons; 67Zn(n; p)67Cu; 68Zn(n; x)67Cu; 68Zn(γ; p)67Cu reactions; radiochemical separation; off-line γ-ray spectrometry;

机译：CU-67;医用放射性核素;加速器中子;67zn（n;p）67cu;68zn（n;x）67cu;68zn（γ;p）67cu反应;放射化学分离;离线γ射线光谱法;

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1. Production, separation and supply prospects of 67Cu with the development of fast neutron sources and photonuclear technology [J] . ArjunGopalakrishna, Saraswatula VenkataSuryanarayana, HaladharaNaik, Radiochimica Acta: International Journal for Chemical Aspects of Nuclear Science and Technology . 2018,第7期

机译：67CU的生产，分离和供应前景随着快速中子源和光核技术的发展
2. Nuclear data for production of the therapeutic radionuclides 32P, 64Cu, 67Cu, 89Sr, 90Y and 153Sm via the (n,p) reaction: evaluation of excitation function and its validation via integral cross-section measurement using a 14 MeV d(Be) neutron source. [J] . Al Abyad M, Spahn I, Sudar S, Applied radiation and isotopes: including data, instrumentation and methods for use in agriculture, industry and medicine . 2006,第6期

机译：通过（n，p）反应产生治疗性放射性核素32P，64Cu，67Cu，89Sr，90Y和153Sm的核数据：激发函数的评估及其通过使用14 MeV d（Be）中子进行整体截面测量来验证资源。
3. The production, separation, and use of 67Cu for radioimmunotherapy: A review [J] . SmithN.A., BowersD.L., EhstD.A. Applied radiation and isotopes: including data, instrumentation and methods for use in agriculture, industry and medicine . 2012,第10期

机译：放射免疫疗法中67Cu的生产，分离和使用：综述
4. Analysis of acid mine drainage production condition and development prospect of source control technology [C] . Chen Ming, Zhu Yansheng, Xiong Linyuan, 2011 International Conference on Electronics, Communications and Control . 2011

机译：酸性矿山排水生产条件分析及源头控制技术发展前景
5. Development and Characterization of a Fast Neutron Imaging Telescope (FNIT) for 1--20 MeV Neutrons From the Sun and Nuclear Material. [D] . Woolf, Richard S. 2010

机译：快速中子成像望远镜（FNIT）的开发和特性，用于1--20 MeV中子来自太阳和核材料。
6. Fast Neutron Dose Measurements for a D–D Neutron Source in Water [O] . W. B. Beverly, V. Spiegel, Jr. 1964

机译：水中D–D中子源的快速中子剂量测量
7. Enhanced production possibility of the therapeutic radionuclides 64Cu, 67Cu and 89Sr via (n,p) reactions induced by fast spectral neutrons [O] . Spahn I., Coenen H. H., Qaim S. M. 2004

机译：通过快速光谱中子引起的（n，p）反应提高治疗性放射性核素64Cu，67Cu和89Sr的生产可能性

Production, separation and supply prospects of 67Cu with the development of fast neutron sources and photonuclear technology

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