AI Article Synopsis
- Cyclodextrin-based metal-organic frameworks (CD-MOF) are effective for drug delivery due to their edibility and high drug loading capacity, but they have issues with size and brittleness in water.
- An ultrasonic-assisted method was developed to create uniformly-sized nanoscale CD-MOF (Nano-CMOF) with improved water stability through ester bond cross-linking, maintaining its cubic shape and high porosity.
- Nano-CMOF efficiently loaded and released quercetin, showing excellent antioxidant properties and biocompatibility, making it a promising option for nutritional delivery in food and biomedical applications.
Article Abstract
Cyclodextrin-based metal-organic framework (CD-MOF) has been widely used in various delivery systems due to its excellent edibility and high drug loading capacity. However, its typically bulky size and high brittleness in aqueous solutions pose significant challenges for practical applications. Here, we proposed an ultrasonic-assisted method for rapid synthesis of uniformly-sized nanoscale CD-MOF, followed by its hydrophobic modification through ester bond cross-linking (Nano-CMOF). Proper ultrasound treatment effectively reduced particle size to nanoscale (393.14 nm). Notably, carbonate ester cross-linking method significantly improved water stability without altering its cubic shape and high porosity (1.3 cm/g), resulting in a retention rate exceeding 90% in various media. Furthermore, the loading of quercetin did not disrupt cubic structure and showcased remarkable storage stability. Nano-CMOF achieved controlled release of quercetin in both aqueous environments and digestion. Additionally, Nano-CMOF demonstrated exceptional antioxidant (free radical scavenging 82.27%) and biocompatibility, indicating its significant potential as novel nutritional delivery systems in food and biomedical fields.
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| http://dx.doi.org/10.1016/j.foodchem.2024.139167 | DOI Listing |
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