Linear long-chain a-olefins from hydrodeoxygenation of methyl palmitate over copper phyllosilicate catalysts

Copper phyllosilicate (CuPS) was used as a bifunctional catalyst for hydrodeoxygenation of methyl palmitate (MP) to produce long-chain alpha-olefins without the loss of carbon backbone. The CuPS catalysts were prepared by ammonia evaporation-hydrothermal method. The crystal structure, surface area, reducibility, Cu dispersion, Cu particle size and acidity of the catalysts were examined by XRD, BET, H-2-TPR, TEM, NH3-TPD and Py-IR. The existence of Cu2+ species (octahedral (O-h)/square planar (Sq)), Cu+ and Cu-0 upon calcination/reduction was investigated by in situ TR-XANES. The Cu dispersion was related to the Cu+ fraction in CuPS, while Bronsted acid sites (BAS) depends on Cu-0 particles. The MP conversion to 1-hexadecene proceeds via hydrogenation-dehydration promoted by the synergy of Cu-0 surface and Bronsted acid sites at the interface. The alpha-olefin selectivity depends on a balance between Cu+ and Cu loading. The 20CuPS possessing 10% Cu+ fraction, provides a high conversion of 72% with 45% alpha-olefin selectivity.