CIESC Journal ›› 2021, Vol. 72 ›› Issue (6): 3063-3073.DOI: 10.11949/0438-1157.20201732

• Special column for comprehensive utilization of salt lake resouces in Qinghai • Previous Articles     Next Articles

Preparation of new calix[4]biscrown supramolecular recognition materials for the adsorption of rubidium and cesium

HOU Linyi(),WANG Yining,ZHANG Anyun(),SU Jiatian   

  1. College of Chemical and Biological Engineering, Zhejiang University, Hangzhou 310027, Zhejiang, China
  • Received:2020-12-01 Revised:2021-03-16 Online:2021-06-05 Published:2021-06-05
  • Contact: ZHANG Anyun

新型calix[4]biscrown超分子识别材料制备及其吸附铷和铯性能研究

侯林怡(),王一宁,张安运(),苏佳天   

  1. 浙江大学化学工程与生物工程学院,浙江 杭州 310027
  • 通讯作者: 张安运
  • 作者简介:侯林怡(1996—),女,硕士,21828037@zju.edu.cn
  • 基金资助:
    国家自然科学基金项目(U1407115)

Abstract:

Rb and Cs are important strategic resources. The effective separation of Rb and Cs from brine has been challenging work that has not been solved due to the complexity of the compositions in alkaline medium. For this purpose, a new supramolecular material BC6/XAD-7 or BC5/XAD-7 was prepared and characterized by vacuum impregnating and immobilizing BC6 or BC5 into the pores of mesoporous XAD-7 carrier. The adsorption of Rb, Cs and other typical metals on BC6/XAD-7 or BC5/XAD-7 was investigated by examining the influence of pH in aqueous phase and temperature. The adsorption kinetics of Rb and Cs onto BC6/XAD-7 and BC5/XAD-7 with the change of contact time was studied. The optimum adsorption conditions were obtained. The technical feasibility of the adsorption of Cs and Rb by the materials from a solution after K removal was confirmed. A technical process entitled CREC was proposed. It provides theoretical and experimental basis for the application of new supramolecular recognition materials in the adsorption and separation of cesium and rubidium in salt lake brine.

Key words: supramolecular material, adsorption, brine, rubidium, cesium

摘要:

稀有金属铷和铯是重要战略资源,盐湖卤水中含有一定量铷和铯。因其组成与碱性介质的复杂性,铷铯的分离与回收极富挑战性,尚未有效解决。本文基于固定化与真空活化灌注技术将超分子衍生物杯[4]双冠6(BC6)和杯[4]双冠5(BC5)负载于高分子介孔载体XAD-7孔道中,制备与表征了新型超分子识别材料BC6/XAD-7和BC5/XAD-7。研究了水相pH和温度变化对BC6/XAD-7和BC5/XAD-7吸附典型碱金属和碱土金属离子性能的影响,考察了BC6/XAD-7和BC5/XAD-7随接触时间变化吸附铷和铯动力学行为,获得了最佳吸附条件,明确了提取钾后余液中以超分子识别材料吸附分离铯和铷的技术可行性,提出了有效吸附分离铯和铷的CREC技术流程,为应用新型超分子识别材料于盐湖卤水中吸附分离铯和铷提供理论与实验依据。

关键词: 超分子材料, 吸附, 盐湖卤水, 铷,

CLC Number: