Because metal-organic frameworks (MOFs) -- highly porous metal complexes -- are so structurally and chemically diverse, they could be used for many applications, such as drug delivery and environmental clean-up. But researchers still need to get a better understanding of how they function, especially when embedded in polymers. Reporting in ACS Applied Materials & Interfaces, researchers have now developed and characterized nitric oxide (NO)-storing MOFs embedded in a thin film with novel antibacterial potential.
Studying the interactions between MOFs and polymers within membranes can be challenging and requires complex analytical methods and significant resources. In earlier studies, Russell E. Morris and colleagues examined the interface between a nickel-containing MOF and polyurethane. But the focused-ion-beam scanning electron microscopy (FIB-SEM) method that they used can alter or damage both polymers and MOFs. So, the same researchers together with Zeiss Microscopy used a new FIB-SEM technique using cryogenics to increase stability of MOF composites.
To test this, they created three membranes in collaboration with researchers at Colorado State University containing a nickel MOF called CPO-27-Ni, a copper MOF called CuBTTri, or both. Next, using their cryogenic FIB-SEM technique, they saw particles of each MOF in greater detail than with other imaging methods. The images also showed that the metal complexes were distributed evenly throughout the membranes and did not overlap. The researchers then examined the ability of the films to release NO, a molecule with antibacterial properties that could have biomedical applications. In experiments, MOF-embedded membranes had different triggers and responses:
The researchers say that the nickel and copper MOFs combined to create a composite material that achieved an optimal, two-stage NO delivery system. They suggest that this two-phase delivery might be useful in medical devices, providing both immediate antibacterial effects and long-term prevention of microbial fouling.
Cite This Page: