Pyrolysis of Phenethyl Phenyl Ether Tethered in Mesoporous Silica. Effects of Confinement and Surface Spacer Molecules on Product Selectivity

Kidder, Michelle; Chaffe, Alan; Nguyen, M; Buchanan, III, A C

doi:10.1021/jo200576v

Title: Pyrolysis of Phenethyl Phenyl Ether Tethered in Mesoporous Silica. Effects of Confinement and Surface Spacer Molecules on Product Selectivity

Journal Article · Sat Jan 01 00:00:00 EST 2011 · Journal of Organic Chemistry

DOI:https://doi.org/10.1021/jo200576v· OSTI ID:1081712

Kidder, Michelle ^[1]; Chaffe, Alan ^[2]; Nguyen, M ^[2]; Buchanan, III, A C ^[1]

ORNL
Monash University, Australia

There has been expanding interest in exploring porous metal oxides as a confining environment for organic molecules resulting in altered chemical and physical properties including chemical transformations. In this paper, we examine the pyrolysis behavior of phenethyl phenyl ether (PPE) confined in mesoporous silica by covalent tethers to the pore walls as a function of tether density and the presence of co-tethered surface spacer molecules of varying structure (biphenyl, naphthyl, octyl, and hexadecyl). The PPE pyrolysis product selectivity, which is determined by two competitive free-radical pathways cycling through the two aliphatic radical intermediates (PhCH CH2OPh and PhCH2CH OPh), is shown to be dramatically different from that measured in the liquid phase as well as for PPE tethered to the exterior surface of nonporous silica nanoparticles. Tailoring the pore surface with spacer molecules further alters the selectivity such that the PPE reaction channel involving a molecular rearrangement (O-C phenyl shift in PhCH2CH OPh), which accounts for 25 % of the products in the liquid phase, can be virtually eliminated under pore confinement conditions. The origin of this change in selectivity is discussed in the context of steric constraints on the rearrangement path, confinement effects, pore surface curvature, and hydrogen bonding of PPE with residual surface silanols supplemented by nitrogen physisorption data and molecular dynamics simulations.

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Research Organization:: Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)

Sponsoring Organization:: USDOE Office of Science (SC)

DOE Contract Number:: DE-AC05-00OR22725

OSTI ID:: 1081712

Journal Information:: Journal of Organic Chemistry, Vol. 76, Issue 15; ISSN 0022-3263

Publisher:: American Chemical Society

Country of Publication:: United States

Language:: English

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