| 4981 |
56 |
MOF-546(Fe) |
cascade reaction |
glucose |
|
|
|
|
|
|
|
| 5006 |
98 |
Tb-OBBA-Hemin |
Detection and Degradation of Estrogen Endocrine Disruptors |
17β-estradiol |
Fluor |
0-100 |
nM |
5 |
nM |
|
|
| 5008 |
103 |
CeO2NRs-MOF |
the on-site determination of Cr(VI) in real water samples |
Cr(VI) |
Color |
0.03−5 |
μM |
20 |
nM |
95%-105% |
|
| 5009 |
105 |
AU-1 |
exhibited excellent enzymatic activity towards the fungal cells. |
|
|
|
|
|
|
|
|
| 5011 |
108 |
HP-MIL-88B-BA |
exhibited a rapid response to glucose (10 min) |
glucose |
Color |
2-100 |
μM |
0.98 |
μM |
|
|
| 5016 |
113 |
PB |
lactate biosensor |
lactate |
E-chem |
|
|
|
|
|
|
| 5021 |
119 |
ZIF-67 |
|
L-Cys |
Fluor |
0.05-6 |
μM |
31 |
nM |
98-103% |
|
| 5035 |
137 |
Zr-MOF |
Quantification and discrimination of phosphorylated proteins |
α-casein |
Color |
0.17-5 |
μg/mL |
0.16 |
μg/mL |
|
|
| 5036 |
137 |
Zr-MOF |
Quantification and discrimination of phosphorylated proteins |
α-casein |
Color |
0.17-5 |
μg/mL |
0.16 |
μg/mL |
|
Further, the absorbance at 652 nm is linearly decreased with the increased levels of α-CS ranging from 0.17 to 5.0 μg/mL (Fig. 4B). The equation can be written as A = −0.0554[α-CS] (μg/mL) + 0.4119 (R2 = 0.996). The limit of detection (LOD) is calculated to be 0.16 μg/mL based on S/N = 3. |
| 5054 |
151 |
Hf-DBP-Fe |
Cancer therapy |
|
|
|
|
|
|
|
|
| 5070 |
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 |
|
|
1 |
cell |
|
|
| 5076 |
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 |
0.1-130 |
μM |
1.1 |
nM |
|
|
| 5077 |
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 |
0.1-100 |
μM |
8.9 |
nM |
|
|
| 5078 |
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 |
0.05-10 |
μM |
20 |
nM |
|
|
| 5087 |
179 |
Pt@PMOF (Fe) |
H2O2 sensor without adding redox mediators |
|
|
|
|
|
|
|
|
| 5088 |
179 |
Pt@PMOF (Fe) |
afford ORR in PBS |
|
|
|
|
|
|
|
|
| 5089 |
179 |
Pt@PMOF (Fe) |
afford ORR in PBS |
|
|
|
|
|
|
|
Furthermore, the Pt NPs with porphyrin in PMOF(Fe) could afford ORR in PBS, which has the potential for fuel cells and biofuel cells, especially in cancer diagnosis. |
| 5090 |
179 |
Pt@PMOF (Fe) |
H2O2 sensor without adding redox mediators |
|
|
|
|
|
|
|
When applied in electrocatalysis, due to the synergy between PMOF(Fe) and Pt NPs, the Pt@PMOF(Fe) modified electrode offers high activities toward to the reduction of H2O2, which could be used for H2O2 sensor without adding redox mediators. |
| 5125 |
213 |
2D Cu-TCPP(Fe) |
sulfonamide detection |
SAs |
E-chem |
1.186-28.051 |
ng/mL |
0.395 |
ng/mL |
64–118% |
|
| 5126 |
213 |
2D Cu-TCPP(Fe) |
sulfonamide detection |
SAs |
E-chem |
1.186-28.051 |
ng/mL |
0.395 |
ng/mL |
64–118% |
The accuracy and precision of the established sensor were estimated using a spike-recovery measurement based on water samples from various sources (pure water, pond water, tap water, river water) fortified with a variety of concentrations of SMM. |
| 5136 |
224 |
oxidized UiO-66(Ce/Zr) |
sensitive determination of Pi |
phosphate ion |
Color |
20-666.7 |
μM |
6.7 |
μM |
|
|
| 5137 |
224 |
oxidized UiO-66(Ce/Zr) |
sensitive determination of Pi |
phosphate ion |
Color |
20-666.7 |
μM |
6.7 |
μM |
|
ABTS channel colorimetric |
| 5138 |
224 |
oxidized UiO-66(Ce/Zr) |
sensitive determination of Pi |
phosphate ion |
Color |
3.3-666.7 |
μM |
1.1 |
μM |
|
Dual-channel ratiometric colorimetric |
| 5143 |
231 |
HKUST-1 |
Synergic Cancer Therapy |
|
|
|
|
|
|
|
|
| 5205 |
313 |
Fe-Loaded MOF-545(Fe) |
Dye Degradation Dyes and the Removal of Dyes from Wastewater |
|
Color |
|
|
|
|
|
|
| 5206 |
314 |
Fe-MOF |
PSA detection |
PSA |
Color |
0-60 |
μM |
0.051 |
μM |
|
|
| 5207 |
316 |
Fe-MIL-88B |
we constructed an indirect competitive MOFLISA for high throughput determination of AFB1 in grain drinks |
AFB1 |
Color |
0.01 to 20 |
ng·mL−1. |
0.009 |
ng·mL−1 |
87–98% (Nestle peanut milk) 86–99%(Silk soy milk) |
|
| 5224 |
331 |
Fe-MOFs |
Detection of H2O2 and Glucose |
H2O2 |
Color |
0-100 |
μM |
1.2 |
μM |
|
|
| 5225 |
331 |
Fe-MOFs |
Detection of H2O2 and Glucose |
glucose |
Color |
0-50 |
μM |
0.6 |
μM |
|
|
| 5250 |
345 |
MIL-100 (Fe) |
The aptasensor showed a wide linear range of 1.0 × 10−10 g L−1 to 3.0 × 10−5 g L−1 and a low detection limit of 7.7 × 10−11 g L−1. The aptasensor also showed excellent selectivity and sensitivity. The novel sensing platform could provide a potential alternative method for AFP detection in simple samples. |
|
CL |
1E-10-3E−5 |
g/L |
7.7 × 10−11 |
g/L |
|
|
| 5251 |
346 |
Zr-MOFs |
new angle for the design of future MOF catalysts |
|
|
|
|
|
|
|
|
| 5254 |
350 |
AuNP@Fe-TCPP-MOF |
highly sensitive and selective detection of Hg2+ ions |
|
|
|
|
|
|
|
|
| 5316 |
414 |
PBA NCs |
Online Visible Light Absorption |
H2S |
Color |
0.1-20 |
μM |
33 |
nM |
|
|
| 5318 |
419 |
core–shell Mn/Fe PBA@Mn/Fe PBA |
Colorimetric analysis Cys |
Cys |
Color |
1-25 |
μM |
0.36 |
μM |
|
|
| 5319 |
419 |
core–shell Mn/Fe PBA@Mn/Fe PBA |
Colorimetric analysis Hg2+ |
Hg2+ |
Color |
0.1-15 |
μM |
0.02 |
μM |
|
|
| 5320 |
419 |
core–shell Mn/Fe PBA@Mn/Fe PBA |
Colorimetric analysis of H2O2 |
H2O2 |
Color |
1-300 |
μM |
0.05 |
μM |
|
|
| 5341 |
432 |
GMOF-LA |
Cancer Therapy |
|
|
|
|
|
|
|
|
| 5390 |
464 |
FePorMOF |
CL Imaging Assay of Glucose and AFP |
Glucose |
CL |
50-1000 |
μM |
39.2 |
μM |
|
|
| 5401 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
Morus |
Color |
0-40 |
μM |
0.47 |
μM |
|
|
| 5402 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
Cichorium intybus |
Color |
0-30 |
μM |
0.37 |
μM |
|
|
| 5403 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
Orange juice |
Color |
0-8 |
μM |
0.08 |
μM |
|
|
| 5404 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
Trolox |
Color |
0-35 |
μM |
0.34 |
μM |
|
|
| 5405 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
Chlorogenic acid |
Color |
0-12 |
μM |
0.11 |
μM |
|
|
| 5406 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
Tannic acid |
Color |
0-6 |
μM |
0.06 |
μM |
|
|
| 5407 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
Ferulic acid |
Color |
0-12 |
μM |
0.19 |
μM |
|
|
| 5408 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
L-cysteine |
Color |
0-30 |
μM |
0.37 |
μM |
|
|
| 5409 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
Ascorbic acid (AA) |
Color |
0-35 |
μM |
0.39 |
μM |
|
|
| 5410 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
Lemon juice |
Color |
0-7 |
μM |
0.08 |
μM |
|
|
| 5411 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
Caffeic acid |
Color |
0-20 |
μM |
0.27 |
μM |
|
|
| 5412 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
Quercetin |
Color |
0-7.5 |
μM |
0.11 |
μM |
|
|
| 5413 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
Eucalyptus |
Color |
0-15 |
μM |
0.24 |
μM |
|
|
| 5414 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
Thymes |
Color |
0-35 |
μM |
0.42 |
μM |
|
|
| 5415 |
470 |
Tα-MOF |
The apparent Km of Tα-MOF is measured 3.180 mM and 0.0109 µM for TMB and H2O2, respectively. In this study, the LOD values for Ferulic acid, Tannic acid, and Chlorogenic acid were 0.19, 0.06, and 0.11, respectively. The RAC value obtained for tannic acid, orange juice, and lemon juice was 4.79, 3.37, and 3.53, respectively. |
Ascorbic acid (AA) |
Color |
0-35 |
μM |
0.39 |
μM |
|
Relatively, the extracts lead to a discoloring tendency in the order of Lemon Juice > Orange Juice > Eucalyptus > Cichorium intybus > Thymes > Morus |
| 5433 |
490 |
Zn-TCPP(Fe) |
Colorimetric detection of alkaline phosphatase |
Alkaline phosphatase (ALP) |
Color |
50-200 |
U/L |
50 |
U/L |
|
|
| 5434 |
490 |
Zn-TCPP(Fe) |
Colorimetric detection of alkaline phosphatase |
Alkaline phosphatase (ALP) |
Color |
50-200 |
U/L |
50 |
U/L |
|
Three linear ranges of 2.5–20 U L−1, 5–60 U L−1, and 50–200 U L−1 could be obtained by using PPi, ATP, and ADP as inhibitors, respectively. |
| 5490 |
546 |
Detection of acetylcholinesterase activity |
Detection of acetylcholinesterase activity |
acetylcholinesterase (AChE) |
Color |
0.2-50 |
mU/mL |
0.14 |
mU/mL |
|
|
| 5496 |
556 |
UiO-66 |
Enhances Hydrolytic Activity toward Peptide Bonds |
|
|
|
|
|
|
|
|
| 5516 |
577 |
Zn-TCPP(Fe) |
superoxide scavenging |
|
|
|
|
|
|
|
|
| 5541 |
605 |
Ce-MOF |
sensitive detection of hydrogen peroxide and ferric ions |
Fe2+ |
Fluor |
0.016-0.133 |
μM |
0.016 |
μM |
|
|
| 5542 |
605 |
Ce-MOF |
sensitive detection of hydrogen peroxide and ferric ions |
H2O2 |
Fluor |
200-1500 |
μM |
10 |
μM |
|
|