posted on 2024-08-02, 06:29authored byGuangyuan Hu, Zhiwei Wang, Changqing Xia, Xinliang Wang, Hongxing He, Zhifeng Nie, Shixing Wang, Weili Li
The recovery of gold from industrial effluents is crucial
for environmental
conservation, sustainable resource management, and promoting the green
development of gold resources. We designed a Zr-based MOF (UKM-78)
by incorporating functional organic ligands that resemble amino groups,
using MOFs’ inherent sieving effect for ion separation. This
novel material exhibited enhanced gold recovery under acidic conditions,
with an adsorption capacity three times and an adsorption rate four
times higher than those of nonfunctionalized UKM-77. Notably, UKM-78
efficiently captured gold solutions at concentrations as low as 1
ppm and achieved an adsorption rate exceeding 90%, owing to the electrostatic
interactions and coordination between its functionalized groups and
the synergistic effect of its porous structure. Despite multiple regeneration
cycles, UKM-78 retains 99.4% of its adsorption capacity. X-ray photoelectron
spectroscopy (XPS), kinetic studies, and thermodynamics collectively
demonstrated that Au(III) binding on UKM-78 involved cooperative electrostatic
interactions and chemical adsorption through coordination. This study
highlights the potential of MOFs for efficient and sustainable recovery
of gold from complex waste streams.