ref | material | application | target | method | |
---|---|---|---|---|---|
56 | MOF-546(Fe) | cascade reaction | glucose | ||
98 | Tb-OBBA-Hemin | Detection and Degradation of Estrogen Endocrine Disruptors | 17β-estradiol | Fluor | |
103 | CeO2NRs-MOF | the on-site determination of Cr(VI) in real water samples | Cr(VI) | Color | |
105 | AU-1 | exhibited excellent enzymatic activity towards the fungal cells. | |||
108 | HP-MIL-88B-BA | exhibited a rapid response to glucose (10 min) | glucose | Color | |
113 | PB | lactate biosensor | lactate | E-chem | |
119 | ZIF-67 | L-Cys | Fluor | ||
137 | Zr-MOF | Quantification and discrimination of phosphorylated proteins | α-casein | Color | |
137 | Zr-MOF | Quantification and discrimination of phosphorylated proteins | α-casein | Color | |
151 | Hf-DBP-Fe | Cancer therapy | |||
164 | PBNPs in TiNM | To use the POD-like activity of PBNPs in sensitive detection of telomerase, TMB, one of the well-studied substrates for evaluating POD activity, was used in our design | telomerase | Color | |
168 | MIL-101(Fe) | According to the enzyme cascade amplification strategy, the MIL-101(Fe) nanozyme in conjunction with AChE and ChOx provided a novel label-free fluorescent assay for detection of choline and ACh with high selectivity and sensitivity. Given this, this proposed sensing strategy was successfully utilized to detect the choline in milk and ACh in human plasma with desirable results | H2O2 | Fluor | |
168 | MIL-101(Fe) | According to the enzyme cascade amplification strategy, the MIL-101(Fe) nanozyme in conjunction with AChE and ChOx provided a novel label-free fluorescent assay for detection of choline and ACh with high selectivity and sensitivity. Given this, this proposed sensing strategy was successfully utilized to detect the choline in milk and ACh in human plasma with desirable results | Ach | Fluor | |
168 | MIL-101(Fe) | According to the enzyme cascade amplification strategy, the MIL-101(Fe) nanozyme in conjunction with AChE and ChOx provided a novel label-free fluorescent assay for detection of choline and ACh with high selectivity and sensitivity. Given this, this proposed sensing strategy was successfully utilized to detect the choline in milk and ACh in human plasma with desirable results | choline | Fluor | |
179 | Pt@PMOF (Fe) | H2O2 sensor without adding redox mediators | |||
179 | Pt@PMOF (Fe) | afford ORR in PBS | |||
179 | Pt@PMOF (Fe) | afford ORR in PBS | |||
179 | Pt@PMOF (Fe) | H2O2 sensor without adding redox mediators | |||
213 | 2D Cu-TCPP(Fe) | sulfonamide detection | SAs | E-chem | |
213 | 2D Cu-TCPP(Fe) | sulfonamide detection | SAs | E-chem |