Chemically Stable Guanidinium Covalent Organic Framework for the Efficient Capture of Low-Concentration Iodine at High Temperatures

化学 共价键 吸附 离子键合 共价有机骨架 化学工程 有机化学 离子 工程类
作者
Zhiyuan Zhang,Xinglong Dong,Jun Yin,Zhigang Li,Xue Li,Daliang Zhang,Tingting Pan,Qiong Lei,Xiongli Liu,Yaqiang Xie,Feng Shui,Jinli Li,Mao Yi,Jin Yuan,Zifeng You,Laiyu Zhang,Jianhong Chang,Hongbo Zhang,Wei Li,Qianrong Fang
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:144 (15): 6821-6829 被引量:261
标识
DOI:10.1021/jacs.2c00563
摘要

The capture of radioactive I2 vapor from nuclear waste under industrial operating conditions remains a challenging task, as the practical industrial conditions of high temperature (≥150 °C) and low I2 concentration (∼150 ppmv) are unfavorable for I2 adsorption. We report a novel guanidinium-based covalent organic framework (COF), termed TGDM, which can efficiently capture I2 under industrial operating conditions. At 150 °C and 150 ppmv I2, TGDM exhibits an I2 uptake of ∼30 wt %, which is significantly higher than that of the industrial silver-based adsorbents such as Ag@MOR (17 wt %) currently used in the nuclear fuel reprocessing industry. Characterization and theoretical calculations indicate that among the multiple types of adsorption sites in TGDM, only ionic sites can bond to I2 through strong Coulomb interactions under harsh conditions. The abundant ionic groups of TGDM account for its superior I2 capture performance compared to various benchmark adsorbents. In addition, TGDM exhibits exceptionally high chemical and thermal stabilities that fully meet the requirements of practical radioactive I2 capture (high-temperature, humid, and acidic environment) and differentiate it from other ionic COFs. Furthermore, TGDM has excellent recyclability and low cost, which are unavailable for the current industrial silver-based adsorbents. These advantages make TGDM a promising candidate for capturing I2 vapor during nuclear fuel reprocessing. This strategy of incorporating chemically stable ionic guanidine moieties in COF would stimulate the development of new adsorbents for I2 capture and related applications.
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