ref | title | DOI | material type | comment | |
---|---|---|---|---|---|
3582 | 394 | Fe3O4@ Cu/C and Fe3O4@ CuO Composites Derived from Magnetic Metal–Organic Frameworks Fe3O4@ HKUST-1 with Improved Peroxidase-Like Catalytic Activity | https://doi.org/10.1007/s10562-019-02964-8 | Composite | Fe3O4@Cu/C and Fe3O4@CuO Composites Derived from Magnetic Metal–Organic Frameworks Fe3O4@HKUST‑1 |
ref | material | size | size err | size unit | size type | size comment | BET | b nanozyme | b 10n | b unit | specific act | sa 10n | sa unit | comment | |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
7633 | 394 | Fe3O4@Cu/C | nm | TEM | However, calcination at a higher temperature and a long time caused serious collapse of the structure, leading to the disappearance of original morphology. It can be found that Fe3O4@CuO composites fail to inherit the original octahedral structure and present nearly spherical (Fig. 3a, c). From TEM image (Fig. 3e, f), the constructions of Fe3O4@HKUST-1 composites are shrunk in certain degree and the sizes are reduced, whether the composites were calcined in N2 or air atmosphere. | 112.1 | |||||||||
7632 | 394 | Fe3O4@CuO | nm | TEM | However, calcination at a higher temperature and a long time caused serious collapse of the structure, leading to the disappearance of original morphology. It can be found that Fe3O4@CuO composites fail to inherit the original octahedral structure and present nearly spherical (Fig. 3a, c). From TEM image (Fig. 3e, f), the constructions of Fe3O4@HKUST-1 composites are shrunk in certain degree and the sizes are reduced, whether the composites were calcined in N2 or air atmosphere. | 45.8 |
ref | material | enzyme type | substrate | pH | T | km | km err | km 10n | km unit | vmax | vmax err | vmax 10n | vmax unit | kcat | kcat err | kcat 10n | kcat unit | kcat/km | kcat/km 10n | kcat/km unit | comment | |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
6275 | 394 | Fe3O4@Cu/C | POD | H2O2 | 4.0 | 45 | 0.027 | mM | 6.61 | -8 | M/s | 394 | 394 | |||||||||
6274 | 394 | Fe3O4@CuO | POD | H2O2 | 4.0 | 45 | 0.094 | mM | 2.97 | M/s | 394 | |||||||||||
6273 | 394 | Fe3O4@CuO | POD | TMB | 4.0 | 45 | 1.97 | mM | 13.77 | M/s | 394 | |||||||||||
6272 | 394 | Fe3O4@Cu/C | POD | TMB | 4.0 | 45 | 1.87 | mM | 13.54 | -7 | M/s | 394 |
ref | material | application | target | method | linear range | linear ran unit | LOD | lod unit | recovery | comment | |
---|---|---|---|---|---|---|---|---|---|---|---|
5305 | 394 | Fe3O4@Cu/C | To evaluate the peroxidase catalytic performance of Fe3O4@Cu/C and Fe3O4@CuO composites, catalytic experiments were performed toward the oxidative degradation of model organic dyes (MB) | ||||||||
5304 | 394 | Fe3O4@CuO | To evaluate the peroxidase catalytic performance of Fe3O4@Cu/C and Fe3O4@CuO composites, catalytic experiments were performed toward the oxidative degradation of model organic dyes (MB) |