Comparing The Catalytic Activity of Mg-BTC Metal Organic Framework and Post Synthetically Modified (TiO2 @ Mg-BTC) Metal Organic Framework for Cyanosilylation of Aldehydes

Abstract

Metal organic frameworks (MOFs) are an emerging class of porous crystalline hybrid materials synthesised by the coordination of inorganic connectors and organic linkers, which has numerous potential applications in various fields. Here we report a comparative study on Mg-BTC MOF and TiO @Mg-BTC MOF as a heterogeneous catalyst. Mg-BTC MOF was synthesised by solvothermal method and subjected to comparative study with its post synthetically modified (PSM) counterpart to understand their catalytic behaviour for cyanosilylation of aldehydes. The synthesised Mg-BTC MOF and TiO @Mg-BTC MOF were characterised by powder XRD, BET surface area, SEM, FT-IR, TGA techniques. A detailed characterization study was performed to understand the correlation between catalytic activity and morphology of the assynthesized MOF and PSM-MOF. The catalytic activity of the hybrid materials were evaluated by GC-MS analysis. The results of the catalytic reactions revealed that post synthetically modified (TiO @Mg-BTC) MOF exhibited significantly higher catalytic activity compared to Mg-BTC MOF. The enhanced catalytic efficiency is due to the incorporation of TiO nanoparticles, which provides active sites for catalytic reactions under heterogeneous conditions. Even after repeated recycling and reuse, the catalytic ability of the catalyst retains. The impact of TiO on the framework shows variation in texture, surface area, thermal stability and catalytic behaviour on the MOF materials. Thus, our study emphasizes