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Cited 39 time in webofscience Cited 41 time in scopus
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Towards high-efficiency sorptive capture of radionuclides in solution and gas

Authors
Vellingiri, KowsalyaKim, Ki-HyunPournara, AnastasiaDeep, Akash
Issue Date
May-2018
Publisher
Pergamon Press Ltd.
Keywords
Sorbents; Nuclear energy; Uranium; Radionuclide
Citation
Progress in Materials Science, v.94, pp 1 - 67
Pages
67
Indexed
SCI
SCIE
SCOPUS
Journal Title
Progress in Materials Science
Volume
94
Start Page
1
End Page
67
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/3358
DOI
10.1016/j.pmatsci.2018.01.002
ISSN
0079-6425
1873-2208
Abstract
As globalization and rapid population growth have raised global energy needs, the demand for nuclear energy has increased drastically. To make use of such energy more reliably, the efficient disposal of nuclear wastes has become a major challenge. With this in mind, numerous research efforts have been put to safely store, capture, and immobilizeradioactive waste. As a result, a variety of sorbent materials with different physical, chemical, and structural properties have been invented or discovered. The maximum removal capacity of these sorbents were then assessed for a variety of radionuclides in soluble and/or gaseous forms. The pre-/post-synthetic modification of these sorbent materials has also been investigated intensively to help enhance their overall stability, tunability, and capacity without altering or damaging the main framework. In this review, we explored the performance of different materials for the sorption of most important radionuclide species including uranium, cobalt, europium, iodine, cesium, strontium, technetium, krypton, xenon, and argon. To begin with, we classified sorbent materials into three categories in light of their structural evolvement over time. We also described the critical factors to consider for the proper application of these categorized sorbents (e.g., sorption properties, structural characteristics, reversibility, and renewability). Finally, we discussed briefly the present limitations and future prospects of these technologies.
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