Tailoring the Asymmetric Structure of NH2‐UiO‐66 Metal‐Organic Frameworks for Light‐promoted Selective and Efficient Gold Extraction and Separation

Author:

Cao Jiazhen1,Xu Zhenmin12,Chen Yao13,Li Shuangjun1,Jiang Yue4,Bai Lele1,Yu Han1,Li Hexing1,Bian Zhenfeng1ORCID

Affiliation:

1. MOE Key Laboratory of Resource Chemistry and Shanghai Key Laboratory of Rare Earth Functional Materials Shanghai Normal University Shanghai 200234 China

2. School of Chemical and Environmental Engineering Shanghai Institute of Technology Shanghai 201418 China

3. Department of Chemistry Shanghai Key Laboratory of Molecular Catalysis and Innovative Materials Fudan University Shanghai 200438 China

4. Key Laboratory of Yangtze River Water Environment Shanghai Institute of Pollution Control and Ecological Security Tongji University Shanghai 200092 China

Abstract

AbstractDesigning adsorption materials with high adsorption capacities and selectivities is highly desirable for precious metal recovery. Desorption performance is also particularly crucial for subsequent precious metal recovery and adsorbent regeneration. Herein, a metal–organic framework (MOF) material (NH2‐UiO‐66) with an asymmetric electronic structure of the central zirconium oxygen cluster has an exceptional gold extraction capacity of 2.04 g g−1under light irradiation. The selectivity of NH2‐UiO‐66 for gold ions is up to 98.8 % in the presence of interfering ions. Interestingly, the gold ions adsorbed on the surface of NH2‐UiO‐66 spontaneously reduce in situ, undergo nucleation and growth and finally achieve the phase separation of high‐purity gold particles from NH2‐UiO‐66. The desorption and separation efficiency of gold particles from the adsorbent surface reaches 89 %. Theoretical calculations indicate that ‐NH2functions as a dual donor of electrons and protons, and the asymmetric structure of NH2‐UiO‐66 leads to energetically advantageous multinuclear gold capture and desorption. This adsorption material can greatly facilitate the recovery of gold from wastewater and can easily realize the recycling of the adsorbent.

Funder

National Natural Science Foundation of China

Program of Shanghai Academic Research Leader

Shanghai Municipal People's Government

Publisher

Wiley

Subject

General Medicine

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