Cyclodextrin MOFs

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Cyclodextrin MOFs

Catalog CD-DR73

Appearance White powder

Packaging 100 mg, 250 mg, 500 mg, 1 g, 5 g

Storage Condition Store in a tightly sealed container away from heat and direct light, and in a cool dry place

Shelf Life 1 year

Availability In stock

*On-demand pack size is available, please contact us for multi-kilograms pack sizes.

Product Description

Cyclodextrin metal-organic frameworks (CD-MOFs) are an advanced class of three-dimensional porous materials crafted from natural cyclodextrin molecules with metal ions and metal-organic ligands. The combination of cyclodextrins and MOFs results in materials that possess exceptional porosity, stability, and the potential for selective molecular encapsulation, making them highly useful in applications such as drug delivery, catalysis, environmental remediation, gas adsorption and separation, and sensors.

Characteristics

• Porous structure: CD-MOFs are known for their highly ordered three-dimensional porous architecture. This structure endows them with a large specific surface area and significant pore volume, creating ample space for molecular encapsulation and recognition. Such a design enables efficient interactions with various molecules, enhancing their potential for diverse applications.
• Molecular recognition capability. The internal cavity of cyclodextrin possesses intrinsic molecular recognition capabilities. Through the host-guest inclusion mechanism, CD-MOFs can selectively bind small molecules or drugs, thereby augmenting the functionality and specificity of the material. This characteristic is particularly advantageous for applications requiring targeted interactions, such as drug delivery and biosensing.
• Adjustable pore structures and properties. The tunability of CD-MOFs is a remarkable feature. By altering the type of metal ions, the structure of metal clusters, and chemically modifying the cyclodextrin, the MOF's architecture can be precisely controlled. This adjustability affects pore structure, stability, molecular recognition capability, and catalytic performance, allowing for the customization of materials for specific applications.
• Stability and biocompatibility. CD-MOFs possess excellent stability and biocompatibility, showing promising potential in fields such as drug delivery, biosensing, and environmental remediation.

Applications

CD-MOFs offer a versatile platform with diverse applications across several fields due to their unique structural and chemical properties:

• Drug delivery. In the realm of drug delivery, CD-MOFs show immense promise due to their high biocompatibility, stability, and ability to encapsulate a variety of drug molecules. Their porosity and molecular recognition capabilities enable targeted and controlled release of therapeutics, improving drug efficacy and minimizing side effects.

• Catalysis. CD-MOFs exhibit excellent catalytic properties. The adjustable pore structure and metal ion composition can be tailored to optimize catalytic activity for specific reactions. This makes them suitable for a wide range of catalytic processes, including organic transformations and environmental catalysis.

• Environmental remediation. The robust and adaptable framework of CD-MOFs makes them ideal candidates for environmental remediation. Their ability to capture and degrade pollutants, including heavy metals and organic compounds, illustrates their potential in cleaning up contaminated environments.

• Gas adsorption and separation. With their high surface area and tunable pore sizes, CD-MOFs are highly effective in the adsorption and separation of gases. They can selectively capture and store gases such as carbon dioxide, methane, and hydrogen, making them valuable for applications in gas storage and reducing industrial emissions.

• Sensors. The sensitivity and selectivity of CD-MOFs make them excellent materials for sensor applications. They can be engineered to detect specific molecules, ions, or gases, offering potential use in chemical sensing, biomolecular detection, and environmental monitoring.

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It should be noted that our our products and services are for research use only, not for clinical use.