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Few-layer Black Phosphorous Catalyzes Radical Additions to Alkenes Faster than Low-valence Metals.

María Tejeda-SerranoVicent LloretBence Gábor MárkusFerenc SimonFrank HaukeAndreas HirschAntonio Doménech-CarbóGonzalo AbellánAntonio Leyva-Pérez
Published in: ChemCatChem (2020)
The substitution of catalytic metals by p-block main elements has a tremendous impact not only in the fundamentals but also in the economic and ecological fingerprint of organic reactions. Here we show that few-layer black phosphorous (FL-BP), a recently discovered and now readily available 2D material, catalyzes different radical additions to alkenes with an initial turnover frequency (TOF0) up to two orders of magnitude higher than representative state-of-the-art metal complex catalysts at room temperature. The corresponding electron-rich BP intercalation compound (BPIC) KP6 shows a nearly twice TOF0 increase with respect to FL-BP. This increase in catalytic activity respect to the neutral counterpart also occurs in other 2D materials (graphene vs. KC8) and metal complex catalysts (Fe0 vs. Fe2- carbon monoxide complexes). This reactive parallelism opens the door for cross-fertilization between 2D materials and metal catalysts in organic synthesis.
Keyphrases
  • room temperature
  • metal organic framework
  • highly efficient
  • human health
  • mass spectrometry
  • ms ms
  • transition metal
  • ionic liquid
  • health risk
  • risk assessment
  • crystal structure