Benzothiazole-Derived Covalent Organic Framework for Multimedia Iodine Uptake

IF 2.7 4区化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR

Journal of Cluster Science Pub Date : 2023-09-05 DOI:10.1007/s10876-023-02495-8

Ritika Jaryal, Sadhika Khullar, Rakesh Kumar

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引用次数: 0

Abstract

Nuclear energy holds the chief portion of the global primary energy mix that comes with the major issue of releasing volatile nuclear wastes viz. radioiodine (¹²⁹I and ¹³¹I) into air and water bodies during nuclear fuel reprocessing. The efficient capture of volatile radioiodine has attracted a major attention worldwide due to the severe health and environment effects. Among various porous materials, covalent organic frameworks (COFs) are the intriguing class of porous organic materials with crystallinity, synthetically pre-designable functionalities to achieve tunable properties. Herein, a new benzothiazole based COF (COF-3) obtained by the condensation of 2,6-dimainobenzothiazole and 2,4,6-triformylpholoroglucinol is reported with tetragonal pore topology (pore volume = 0.305 cc g⁻¹; BET surface area = 57.9 m² g⁻¹). The electron rich heteroatoms in the frameworks play a crucial role in adsorbing electron deficient iodine molecules and therefore, the benzothiazole-derived COF is envisioned to be potent material for efficient iodine adsorption. The synthesized COF showed the iodine adsorption capacity of 1.07 g g⁻¹ in vapor phase and 109.0 mg g⁻¹ from n-hexane solution. A reference COF (COF-4) with no thiazole group derived from 1,4-phenylenediamine and 2,4,6-triformylpholoroglucinol with hexagonal pore topology (pore volume = 0.937 cc g⁻¹) and BET surface area 133.9 m² g⁻¹ showed adsorption of iodine from n-hexane solution with capacity 149.5 mg g⁻¹. The study revealed that although the presence of heteroatoms in the framework facilitates the iodine adsorption by converting the molecular iodine into the polyiodides; the factors such as BET surface area, pore topology and pore volume also play a major role in the adsorption of iodine molecules.

Graphical Abstract

Abstract Image

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苯并噻唑衍生的多媒体碘摄取共价有机框架

核能在全球一次能源组合中占主要部分，但在核燃料后处理过程中，会向空气和水体释放挥发性核废料，即放射性碘（129I 和 131I）。由于对健康和环境的严重影响，有效捕获挥发性放射性碘已引起全世界的高度关注。在各种多孔材料中，共价有机框架（COFs）是一类引人入胜的多孔有机材料，它具有结晶性，可通过合成预先设计的功能来实现可调的特性。本文报告了一种新型苯并噻唑基 COF（COF-3），由 2,6-二氰基苯并噻唑和 2,4,6-三异丙基色葡萄醇缩合而成，具有四方孔拓扑结构（孔体积 = 0.305 cc g-1；BET 表面积 = 57.9 m2 g-1）。框架中的富电子杂原子在吸附缺电子的碘分子方面起着至关重要的作用，因此，苯并噻唑衍生的 COF 被认为是高效吸附碘的有效材料。合成的 COF 在气相中的碘吸附容量为 1.07 g g-1，在正己烷溶液中的碘吸附容量为 109.0 mg g-1。参考 COF（COF-4）不含噻唑基，由 1,4-苯二胺和 2,4,6-三异丙基吡咯烷醇衍生而成，具有六角形孔拓扑结构（孔体积 = 0.937 cc g-1），BET 表面积为 133.9 m2 g-1，从正己烷溶液中吸附碘的能力为 149.5 mg g-1。研究表明，虽然框架中杂质原子的存在通过将分子碘转化为聚碘化物而促进了碘的吸附，但 BET 表面积、孔拓扑结构和孔体积等因素在碘分子的吸附中也起着重要作用。

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来源期刊

Journal of Cluster Science 化学-无机化学与核化学

CiteScore

6.70

自引率

0.00%

发文量

166

审稿时长

3 months

期刊介绍： The journal publishes the following types of papers: (a) original and important research; (b) authoritative comprehensive reviews or short overviews of topics of current interest; (c) brief but urgent communications on new significant research; and (d) commentaries intended to foster the exchange of innovative or provocative ideas, and to encourage dialogue, amongst researchers working in different cluster disciplines.