Uncoordinated Amine Groups of Metal–Organic Frameworks to Anchor Single Ru Sites as Chemoselective Catalysts toward the Hydrogenation of Quinoline
Citations Over TimeTop 1% of 2017 papers
Abstract
Here we report a precise control of isolated single ruthenium site supported on nitrogen-doped porous carbon (Ru SAs/N-C) through a coordination-assisted strategy. This synthesis is based on the utilization of strong coordination between Ru3+ and the free amine groups (-NH2) at the skeleton of a metal-organic framework, which plays a critical role to access the atomically isolated dispersion of Ru sites. Without the assistance of the amino groups, the Ru precursor is prone to aggregation during the pyrolysis process, resulting in the formation of Ru clusters. The atomic dispersion of Ru on N-doped carbon can be verified by the spherical aberration correction electron microscopy and X-ray absorption fine structure measurements. Most importantly, this single Ru sites with single-mind N coordination can serve as a semihomogeneous catalyst to catalyze effectively chemoselective hydrogenation of functionalized quinolones.
Related Papers
- → Identification of the metabolites of benzo[f]quinoline and benzo[h]-quinoline formed by rat liver homogenate(1983)11 cited
- → Synthesis of some fused quinoline derivatives(1990)5 cited
- Synthesis of Mercaptoalkoxy quinoline Compounds(2002)
- → Synthesis of benzo[g]quinoline derivatives(1970)
- → Carcinogenic Activity of Analogues of <italic>p</italic>-Dimethylaminoazobenzene. IV. Activity of the Quinoline Analogues<xref ref-type="fn" rid="FN1">2</xref>(1961)