Rapid microwave synthesis of Pb_5(VO_4)_3X (X = F, Cl, Br and I) vanadinite apatites for the immobilisation of halide radioisotopes.

机译：微波快速合成Pb_5（VO_4）_3X（X = F，Cl，Br和I）钒铁磷灰石以固定卤化物放射性同位素。

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Microwave dielectric heating was utilized to synthesize potential host phases for halide radioisotopes. Synthesis of Pb_5(VO_4)_3I was successfully achieved, without the use of a sealed container, using a modified domestic microwave oven (DMO) operating at 2.45 GHz. Rapid synthesis of Pb_5(VO_4)_3X (X = F, Cl, Br) was also achieved using a commercially available microwave muffle furnace, also operating at 2.45 GHz. The combination of rapid heating rate and inverse temperature profile characteristic of microwave heating was found to promote formation of the target phases whilst retarding the volatilization of the halide species. Pb_5(VO_4)_3I ceramic bodies produced in the DMO exhibited a heterogeneous zoned microstructure, whereas Pb_5(VO_4)_3X phases with X = F, Cl, and Br fabricated in the microwave muffle furnace were dimensionally uniform suggesting this could be a promising route to fabricating single phase, dense halide containing ceramics.

机译：利用微波电介质加热合成卤化物放射性同位素的潜在主体相。使用在2.45 GHz下运行的改进型家用微波炉（DMO），无需使用密封容器即可成功实现Pb_5（VO_4）_3I的合成。使用市售的微波马弗炉也可以在2.45 GHz下运行，从而快速合成Pb_5（VO_4）_3X（X = F，Cl，Br）。发现快速加热速率和微波加热的逆温度曲线特征的组合促进了目标相的形成，同时阻碍了卤化物的挥发。在DMO中生产的Pb_5（VO_4）_3I陶瓷体表现出异质的区域化微观结构，而在微波马弗炉中制造的X = F，Cl和Br的Pb_5（VO_4）_3X相尺寸均匀，表明这可能是一种有前途的途径制造含有陶瓷的单相致密卤化物。

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《Symposium on scientific basis for nuclear waste management》|2012年|p.221-226|共6页
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Martin C. Stennett; Ian J. Pinnock; Neil C. Hyatt;
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中图分类放射性废物管理及综合利用;放射性废物管理及综合利用;
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1. Rapid synthesis of Pb_5(VO_4)_3I, for the immobilisation of iodine radioisotopes, by microwave dielectric heating [J] . Stennett M.C., Pinnock I.J., Hyatt N.C. Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2011,第3期

机译：通过微波介电加热快速合成Pb_5（VO_4）_3I，用于固定碘放射性同位素
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机译：钒铁矿的合成碘类似物Pb_5（VO_4）_3I的高温分解：磷灰石相关的固定碘放射性同位素的化合物吗？
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4. Rapid microwave synthesis of Pb_5(VO_4)_3X (X = F, Cl, Br and I) vanadinite apatites for the immobilisation of halide radioisotopes. [C] . Martin C. Stennett, Ian J. Pinnock, Neil C. Hyatt Symposium on scientific basis for nuclear waste management . 2012

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Rapid microwave synthesis of Pb_5(VO_4)_3X (X = F, Cl, Br and I) vanadinite apatites for the immobilisation of halide radioisotopes.

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