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Selective Recovery and Detection of Gold with Cucurbit[<i>n</i>]urils (<i>n</i> = 5–7)

Rui‐Lian Lin, Yongping Dong, Min Tang, Zhichang Liu, Zhu Tao, Jing‐Xin Liu

2020Inorganic Chemistry42 citationsDOI

Abstract

Environmentally benign methods for gold recovery and detection are highly desirable for a sustainable future. Herein, we demonstrate a selective recovery and detection strategy of gold with cucurbit[n]urils (Q[n = 5–7]) by means of outer-surface interactions. Tetrachloroaurate anion ([AuCl4]−) is able to be rapidly precipitated with Q[n] in forms of supramolecular adducts. X-ray crystallography of four Q[n = 5–7]·[AuCl4]− complexes reveal that strong outer-surface interactions between Q[n = 5–7] and [AuCl4]− are the major driving force for the formation of Q[n = 5–7]·[AuCl4]− complexes. Impressively, each Q[6] macrocycle is surrounded by 12 [AuCl4]− anions. Each of these 12 [AuCl4]− anions is connected to four adjacent [AuCl4]− anions, leading to the formation of a three-dimensional supramolecular framework with tubular channels. In addition, we found an interesting inclusion complex [Au(OH2)4]3+⊂Q[7] in the Q[7]·[AuCl4]− complex, which is the first example of hydrated metal cation encapsulated inside the cavity of Q[n]. Spectroscopic data suggest that Q[n = 5–7] possess a high affinity and selectivity for [AuCl4]− even in the presence of other transition-metal ions. Q[n] modified electrodes are found to be an effective material for the detection of trace gold in dilute solutions.

Topics & Concepts

ChemistrySupramolecular Chemistry and ComplexesMolecular Sensors and Ion DetectionCrystallography and molecular interactions