posted on 2022-09-23, 19:05authored byShuai Luo, Jiaqi Gao, Jiaxin Xian, Hui Ouyang, Lin Wang, Zhifeng Fu
Single atom-dispersed catalysts (SADCs) with highly exposed
active
sites can be used as sensitive signal probes because of their superior
catalytic efficiency. However, the dispersed atoms tend to aggregate,
restricting the loading capacity of metal atoms. Herein, the defective
sites on Zr-oxo clusters of metal–organic frameworks (MOFs)
UiO-66-NH2 were modulated by excessive acetic acid and
utilized for confining metal atoms with high loading capacity. To
verify the feasibility of the designed strategy, the Co element was
loaded onto MOFs UiO-66-NH2 to prepare SADCs with desirable
Fenton-like activity. The prepared Co SADCs at a low concentration
of 1.0 μg mL–1 are found to boost chemiluminescent
(CL) emission for 3700 times due to the significantly improved Co
content of 5.55 wt %. The superior CL enhancement efficiency is ascribed
to reactive oxygen species generated by the accelerated decay of H2O2. To verify the application potential in CL assay,
they were used as signal probes to establish an immunoassay method
for carbendazim with a dynamic range of 1.0 pg mL–1 to 25 ng mL–1 and a limit of detection of 0.33
pg mL–1. This defective site modulation strategy
paves an avenue for preparing SADCs with a high CL response by improving
the loading capacity of metal atoms.