AI Article Synopsis
- The study explores a new method for controlled delivery of nitric oxide (NO) using metal-organic polyhedra (MOPs) to treat various diseases.
- The researchers utilize dirhodium paddlewheel complex-based MOPs (RhMOP) that allow NO to attach to specific sites, enhancing the control over its release.
- The release of NO from the created amorphous coordination polymer particles (CPPs) can be triggered by light and humidity, with factors like ligand coordination and particle size improving the efficacy of NO delivery.
Article Abstract
The exogenous administration of nitric oxide (NO) is considered a potential therapeutic treatment against a great variety of diseases due to its significant role in multiple physiological functions. Due to the gaseous nature, short lifetime and dose- and tissue-dependent activity of this molecule, the development of new administration procedures is required to control the NO delivery in terms of dosage, timing, and location. In this work, we propose a new molecular material based on robust metal-organic polyhedra (MOPs) for controlled NO release. We select dirhodium paddlewheel complex-based cuboctahedral MOPs (RhMOP), in which NO can chemically coordinate to the open-metal sites at the axial sites of dirhodium paddlewheel moieties. We further prepare amorphous coordination polymer particles (CPPs) by connecting RhMOP with bis(imidazole) linkers at the external axial sites. Both molecular MOPs and polymeric CPPs show relevant NO payloads and the release of NO can be triggered by two different stimuli: light and humidity. We show that imidazole ligands coordinating to the external axial sites of the paddlewheel moieties tune the light-triggered NO release property. We further demonstrate that the size and the extrinsic pores of CPPs are important for enhanced NO release.
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| http://dx.doi.org/10.1039/d3tb02162a | DOI Listing |
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