Model Number |
KAR-F41 |
Product Name |
MOF-5 |
Particle size |
1-3 um
|
Specific surface area |
> 2000㎡/g
|
Pore size |
1.2nm
|
MOF-5 is recognized for its high porosity, making it suitable for gas storage, especially hydrogen and carbon dioxide. The binding energy for hydrogen adsorption is approximately 26-27 meV, indicating effective physisorption(Gurung & Adhikari, 2023). A semi-empirical molecular dynamics study demonstrated that CO2 can form a liquid-like structure within MOF-5, showcasing its capacity for gas storage under varying conditions(Listyarini et al., 2023).
Recent studies highlight the effectiveness of functionalized MOF-5 in removing phenolic pollutants, with fluorine-modified variants showing superior adsorption capabilities due to enhanced van der Waals and π–π interactions(Razavi et al., 2024).
To address moisture susceptibility, a hydrophobic porous shell was developed around MOF-5, maintaining its structural integrity while enabling CO2/N2 separation under humid conditions(Li et al., 2023).While MOF-5 shows promise in various applications, its stability and performance can be influenced by environmental factors and structural modifications, necessitating further research to optimize its use in practical scenarios.
