TY - JOUR
T1 - Influence of periodic nitrogen functionality on the selective oxidation of alcohols
AU - Chan-Thaw, Carine E.
AU - Villa, Alberto
AU - Veith, Gabriel M.
AU - Kailasam, Kamalakannan
AU - Adamczyk, Leslie A.
AU - Unocic, Raymond R.
AU - Prati, Laura
AU - Thomas, Arne
PY - 2012/2/6
Y1 - 2012/2/6
N2 - An enhancement in catalytic alcohol oxidation activity is attributed to the presence of nitrogen heteroatoms on the external surface of a support material. The same Pd particles (3.1-3.2 nm) were supported on polymeric carbon-nitrogen supports and used as catalysts to selectively oxidize benzyl alcohol. The polymeric carbon-nitrogen materials include covalent triazine frameworks (CTF) and carbon nitride (C 3N 4) materials with nitrogen content varying from 9 to 58 atomic percent. With comparable metal exposure, estimated by X-ray photoelectron spectroscopy, the activity of these catalysts correlates with the concentration of nitrogen species on the surface. Because the catalysts showed comparable acidic/basic properties, this enhancement cannot be ascribed to the Lewis basicity but most probably to the nature of N-containing groups that govern the adsorption sites of the Pd nanoparticles. Anchor it and speed it up! An enhancement in catalytic alcohol oxidation activity (see figure) is attributed to the presence of nitrogen heteroatoms on the external surface of a support material, which direct adsorption of Pd nanoparticles.
AB - An enhancement in catalytic alcohol oxidation activity is attributed to the presence of nitrogen heteroatoms on the external surface of a support material. The same Pd particles (3.1-3.2 nm) were supported on polymeric carbon-nitrogen supports and used as catalysts to selectively oxidize benzyl alcohol. The polymeric carbon-nitrogen materials include covalent triazine frameworks (CTF) and carbon nitride (C 3N 4) materials with nitrogen content varying from 9 to 58 atomic percent. With comparable metal exposure, estimated by X-ray photoelectron spectroscopy, the activity of these catalysts correlates with the concentration of nitrogen species on the surface. Because the catalysts showed comparable acidic/basic properties, this enhancement cannot be ascribed to the Lewis basicity but most probably to the nature of N-containing groups that govern the adsorption sites of the Pd nanoparticles. Anchor it and speed it up! An enhancement in catalytic alcohol oxidation activity (see figure) is attributed to the presence of nitrogen heteroatoms on the external surface of a support material, which direct adsorption of Pd nanoparticles.
KW - alcohols
KW - nanoparticles
KW - nitrogen functionalities
KW - oxidation
KW - palladium
UR - http://www.scopus.com/inward/record.url?scp=84856718894&partnerID=8YFLogxK
U2 - 10.1002/asia.201100565
DO - 10.1002/asia.201100565
M3 - Article
AN - SCOPUS:84856718894
SN - 1861-4728
VL - 7
SP - 387
EP - 393
JO - Chemistry - An Asian Journal
JF - Chemistry - An Asian Journal
IS - 2
ER -