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Modulating Anion Nanotraps via Halogenation for High-Efficiency <sup>99</sup>TcO<sub>4</sub><sup>–</sup>/ReO<sub>4</sub><sup>–</sup> Removal under Wide-Ranging pH Conditions

Xinyi Yang, Weijin Wu, Yinghui Xie, Mengjie Hao, Xiaolu Liu, Zhongshan Chen, Hui Yang, Geoffrey I. N. Waterhouse, Shengqian Ma, Xiangke Wang

2023Environmental Science & Technology77 citationsDOI

Abstract

Efficient and sustainable methods for 99 TcO 4 – removal from acidic nuclear waste streams, contaminated water, and highly alkaline tank wastes are highly sought after. Herein, we demonstrate that ionic covalent organic polymers (iCOPs) possessing imidazolium-N + nanotraps allow the selective adsorption of 99 TcO 4 – under wide-ranging pH conditions. In particular, we show that the binding affinity of the cationic nanotraps toward 99 TcO 4 – can be modulated by tuning the local environment around the nanotraps through a halogenation strategy, thereby enabling universal pH 99 TcO 4 – removal. A parent iCOP-1 possessing imidazolium-N + nanotraps showed fast kinetics (reaching adsorption equilibrium in 1 min), a high adsorption capacity (up to 1434.1 ± 24.6 mg/g), and exceptional selectivity for 99 TcO 4 – and ReO 4 – (nonradioactive analogue of 99 TcO 4 – ) removal in contaminated water. By introducing F groups near the imidazolium-N + nanotrap sites (iCOP-2), a ReO 4 – removal efficiency over 58% was achieved in 60 min in 3 M HNO 3 solution. Further, introduction of larger Br groups near the imidazolium-N + binding sites (iCOP-3) imparted a pronounced steric effect, resulting in exceptional adsorption performance for 99 TcO 4 – under super alkaline conditions and from low-activity waste streams at US legacy Hanford nuclear sites. The halogenation strategy reported herein guides the task-specific design of functional adsorbents for 99 TcO 4 – removal and other applications.

Topics & Concepts

AdsorptionHalogenationChemistryCationic polymerizationSteric effectsCovalent bondSelectivityNuclear chemistryInorganic chemistryOrganic chemistryCatalysisRadioactive element chemistry and processingCovalent Organic Framework ApplicationsChemical Synthesis and Characterization
Modulating Anion Nanotraps via Halogenation for High-Efficiency <sup>99</sup>TcO<sub>4</sub><sup>–</sup>/ReO<sub>4</sub><sup>–</sup> Removal under Wide-Ranging pH Conditions | Litcius