Product: SOM-MIL-88A
Synonyms: NA
CAS: NA
Basic Information
| Unit MF. | C12H7Fe3O14 | Unit MW. | 542.71 | ||
| Coordination Metal | Fe | Linkers |
Fumaric acid (CAS: 110-17-8) |
||
| Pore Size | ~240 nm | Pore Volume | 0.57 cm³/g | ||
| Surface Area | 49.88 m²/g | ||||
| Analog Structure | NA | ||||
Product Property
| Appearance | Greyish white powders with spindle-like morphology | |||
| Particle Size | ~240 nm | |||
Stability
1) Stable in water and acidic solutions (e.g., remains intact after 24 hours in pH 2 solution).
2) The thermal decomposition temperature is unknown, but PXRD analysis shows that it has good structural stability in different environments (including water and oleic acid)
2) The thermal decomposition temperature is unknown, but PXRD analysis shows that it has good structural stability in different environments (including water and oleic acid)
Preservation
1) Keep in dry and cool conditions.
2) Activate by heating in a vacuum oven at room temperature for 3 hours before use.
Other Features
NA
Applications
1) Efficient adsorption of dyes (e.g., Kaumas Brilliant Blue R250), with 2.67 times higher efficiency than traditional MIL-88A.
2) Catalyzes selective oxidation reactions (e.g., benzyl alcohol to benzaldehyde) with higher yield and selectivity than traditional MIL-88A.
3) Superior enzyme immobilization carrier, with higher enzyme loading and activity than traditional MIL-88A.
4) Used in biosensors for glucose detection, with a wide linear range (0.75-500 μM) and low detection limit (0.7 μM).
2) Catalyzes selective oxidation reactions (e.g., benzyl alcohol to benzaldehyde) with higher yield and selectivity than traditional MIL-88A.
3) Superior enzyme immobilization carrier, with higher enzyme loading and activity than traditional MIL-88A.
4) Used in biosensors for glucose detection, with a wide linear range (0.75-500 μM) and low detection limit (0.7 μM).
Characterizations
References
1) Zhiqiang Zou, Zhuoyang Du, Lingmei Dai, Dehua Liu, Wei Du; Journal of the American Chemical Society (2024), 146, 31186−31197, DOI: 10.1021/jacs.4c11243 ; A Universal Approach for High-Yield Synthesis of Single-Crystalline Ordered Macro-Microporous Metal−Organic Frameworks
