Wang Zhe, Yang Jian, Li Yongsheng, Zhuang Qixin, Gu Jinlou
Key Laboratory for Ultrafine Materials of Ministry of Education, School of Materials Science and Engineering, East China University of Science and Technology, Shanghai, 200237, P.R. China.
Chemistry. 2017 Nov 2;23(61):15415-15423. doi: 10.1002/chem.201702534. Epub 2017 Oct 9.
Given the serious harm of Cr to human health, development of efficient techniques for its degradation and subsequent in situ adsorptive removal is highly desirable. Herein, UiO-66 type metal-organic frameworks (MOFs) integrated with various hydroxyl groups (UiO-66, UiO-66-OH, and UiO-66-(OH) ) were successfully explored for the efficient decontamination of Cr from aqueous solution. The abundant hydroxyl groups in organic ligands not only served as reductive sites for the degradation of Cr to less toxic Cr but also acted as inherent anchorages for the efficient capture of Cr . Thanks to their inherent hydroxyl groups and high porosity, UiO-66-(OH) presented almost complete removal of Cr species in simulated industrial wastewater. The total Cr content could be reduced from 5 ppm to 48 ppb under optimized adsorption conditions, which is much lower than the limits of total Cr in drinking water established by the US Environmental Protection Agency (EPA). These outstanding Cr decontamination features, combined with the exceptional chemical stability as well as high porosity prefigured the great potentials of the current adsorbents for the remediation of real-world Cr -containing industrial wastewater.
鉴于铬对人类健康的严重危害,开发高效的降解技术并随后进行原位吸附去除技术是非常必要的。在此,成功探索了与各种羟基结合的UiO-66型金属有机框架(MOF)(UiO-66、UiO-66-OH和UiO-66-(OH)₂)用于从水溶液中高效去除铬。有机配体中丰富的羟基不仅作为将铬降解为毒性较小的铬的还原位点,还作为有效捕获铬的固有锚定位点。由于其固有的羟基和高孔隙率,UiO-66-(OH)₂在模拟工业废水中几乎能完全去除铬物种。在优化的吸附条件下,总铬含量可从5 ppm降至48 ppb,远低于美国环境保护局(EPA)规定的饮用水中总铬限值。这些出色的铬去除特性,再加上优异的化学稳定性和高孔隙率,预示了当前吸附剂在修复实际含铬工业废水方面的巨大潜力。
