Facile, fast and green synthesis of a highly porous calcium-syringate bioMOF with intriguing triple bioactivity

A facile, fast and green strategy based on ethanol is utilized to prepare a new bioMOF, namely, CaSyr-1, with particular characteristics of full biocompatibility given by using just calcium and syringic acid, the latter being a phenolic natural product found in fruits and vegetables, permanent porosity with an outstanding surface area >1000 m(2) g(-1), and a micropore diameter of 1.4 nm close to mesopore values. Collectively, these data establish CaSyr-1 as one of the most porous bioMOFs reported to date, with high molecular adsorption capacity. The CaSyr-1 adsorptive behavior is revised here through the reversible adsorption of CO2 and the encapsulation of bioactive ingredients in the structure. Remarkably, CaSyr-1 enables the development of triple therapeutic entities, involving bioactive Ca2+, syringic acid and an impregnated drug.

Automated summary

A new bioMOF called CaSyr-1 is prepared using an ethanol-based strategy, with features of full biocompatibility, high surface area (>1000 m(2) g(-1)), and a micropore diameter close to mesopore values. This bioMOF shows reversible adsorption of CO2 and can encapsulate bioactive ingredients, enabling the development of triple therapeutic entities involving Ca2+, syringic acid, and a drug.