An Economical Modification Method for MIL-101 to Capture Radioiodine Gaseous: Adsorption Properties and Enhancement Mechanism

Peng Wang, Bingbing Qi, A. Gu, Kai Chen, Chunhui Gong, Yang Yi
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Abstract

Radioactive iodine is one of the inevitable by-products of nuclear energy application. However, it is a great threat to public health and the adsorbent needs to be adopted for removing the radioactive iodine. The iodine adsorbent needs to have some advantages, such as simple preparation method, low cost, high absorption capacity, and recyclable utilization. In order to meet the above requirements, the etched material of institute Lavoisier 101 (MIL-101) was prepared to absorb the gaseous iodine. After the MIL-101 is etched, the iodine adsorption performance has been greatly improved. The iodine adsorption experiment of etched MIL-101 with different etching time (1 h, 3 h, 4 h, and 6 h) was completed, the results show that the optimal etching time is 4 hours and the capture capacity of the etched MIL-101 is 371 wt%, which is about 22% higher than that of original MIL-101. The experiment results of XRD, FT-IR, and XPS prove that the components and structure of etched MIL-101 are accordable with those of MIL-101. The surface roughness is introduced in this work. The pore roughness is also an important factor to the adsorption capacity, and the related research also supports this conclusion. Furthermore, after iodine is absorbed, etched MIL-101 can be treated by ethanol for iodine release, and the etched MIL-101 has satisfied recyclability within three cycles. Compared with MIL-101, etched MIL-101 not only had good reversible adsorption of iodine but also can adsorb low-concentration iodine. The etched MIL-101 has a broad application prospect in nuclear emergency response and radiation detection.
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MIL-101吸附放射性碘气体的经济改性方法:吸附性能及增强机理
放射性碘是核能应用不可避免的副产品之一。然而,它对公众健康构成了很大的威胁,需要采用吸附剂来去除放射性碘。碘吸附剂需要具有制备方法简单、成本低、吸附能力高、可循环利用等优点。为满足上述要求,制备了吸收气态碘的拉瓦锡101研究所蚀刻材料(MIL-101)。MIL-101经蚀刻后,碘吸附性能大大提高。对不同蚀刻时间(1 h、3 h、4 h和6 h)的MIL-101进行了碘吸附实验,结果表明,最佳蚀刻时间为4 h,蚀刻后MIL-101的吸附容量为371%,比原MIL-101提高了约22%。XRD、FT-IR、XPS等实验结果证明,刻蚀后的MIL-101的成分和结构与MIL-101基本一致。本文介绍了表面粗糙度。孔隙粗糙度也是影响吸附能力的重要因素,相关研究也支持这一结论。此外,在碘被吸收后,蚀刻后的MIL-101可以用乙醇处理以释放碘,蚀刻后的MIL-101在3个循环内满足可回收性。与MIL-101相比,蚀刻后的MIL-101不仅对碘有良好的可逆吸附,而且对低浓度碘也有吸附作用。蚀刻MIL-101在核应急响应和辐射探测方面具有广阔的应用前景。
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