Achieving Biomedically Desirable Nitric Oxide Release from Glucose Monitor Surfaces Via a Cu-Based Catalyst Coating.

We report the design of a blood-contacting glucose monitor with a nitric oxide (NO)-releasing metal-organic framework (MOF) embedded within the outer polymer layer of a glucose sensor to promote the release of NO from endogenous NO donors. The sensors were tested by using amperometry across a range of glucose concentrations to assess whether the presence of either the MOF or NO decreased the performance of the glucose monitor. Even though signal response was diminished, the sensors maintained a good regression fit (R2 = 0.9944) and a similar dynamic range and reproducibility in the presence of S-nitrosoglutathione.

A Strategy to Aminate Pyridines, Diazines, and Pharmaceuticals via Heterocyclic Phosphonium Salts.

A straightforward process to aminate pyridines and diazines is presented by reacting phosphonium salt derivatives with sodium azide. The iminophosphorane products are versatile precursors to several nitrogen-containing functional groups, and the process can be applied to building block heterocycles, to drug-like fragments, and for late-stage functionalization of complex pharmaceuticals. Appealing features of this strategy include using C-H bonds as precursors, precise regioselectivity, and a distinct scope from other amination methods, particularly those relying on halogenated azaarenes.