Metal-Organic Frameworks (MOFs): Revolutionizing Material Science
Metal-organic frameworks (MOFs) are a rapidly developing class of coordination polymers. With their remarkable characteristics—structural diversity, porosity, tailorability, and high specific surface area—MOFs have become invaluable across various scientific and industrial fields. Applications include gas adsorption and storage, molecular separation, catalysis, drug sustained release, and the production of optoelectronic materials.
Figure 1 HKUST-1, MIL-53(Al), MIL-88B(Fe) structure
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A prime example of their potential is demonstrated by Professor Wu Yinan’s research group [2][2]
Advantages of MOFs Materials Provided by J&K Scientific:
J&K Scientific is proud to exclusively offer MOF materials developed by Professor Wu Yinan of Tongji University. These materials are designed to meet the needs of scientific research and industrial production, providing:
- Excellent Quality and Cost Performance: Delivering high standards at a competitive price.
- Ready-to-Use Convenience: No synthesis required; the materials are immediately applicable.
- Large Packaging Options: Ideal for scaling up research and industrial applications.
Additionally, J&K Scientific serves as an integrated technology and industrial resource platform, offering supporting research reagents for MOFs synthesis. These reagents help researchers construct functional porous materials more efficiently and effectively.
J&K Scientific is an integrated technology and industrial resource platform that provides supporting research reagents for MOFs material synthesis to help you construct functional porous materials.
Metal salts for MOFs
| Product name | CAS | Item number |
|---|---|---|
| Aluminum chloride, 98%, for synthesis, anhydrous | 7446-70-0 | 935644 |
| Bismuth(III) chloride, 98%, for synthesis | 7787-60-2 | 905985 |
| Bismuth(III) nitrate pentahydrate, 98% | 10035-06-0 | 541584 |
| Chromium(II) chloride, 97%, for synthesis | 10049-05-5 | 946440 |
| Copper(I) chloride, 98% | 7758-89-6 | 952467 |
| Copper(II) bromide, 99%, anhydrous | 7789-45-9 | 369795 |
| Copper(II) sulfate, 98% | 7758-98-7 | 481137 |
| Ferric chloride, 98% | 7705-08-0 | 549006 |
| Iron(II) tetrafluoroborate hexahydrate, 97% | 13877-16-2 | 475783 |
| Iron(III) bromide, 97% | 10031-26-2 | 460109 |
| Nickel ammonium sulfate hexahydrate, 98% | 7785-20-8 | 499948 |
| Nickel(II) acetate tetrahydrate, 99%, for synthesis | 6018-89-9 | 226815 |
| Nickel(II) chloride hexahydrate, 99.9% | 7791-20-0 | 486536 |
References
1.Li L, Tang S, Lv X, Jiang M, Wang C, Zhao X. New J. Chem. 2013, 37, 3662-3670.
2.Li J, Wu Y N, Li Z, Zhu M, Li F. Water Sci. Technol. 2014, 70, 1391-1397.
Vicky Zhao
