Your search keyword '"Carolyn Supplee"' showing total 3 results

1. Rational Design of Highly Active 'Hybrid' Phosphine–Phosphinite Pincer Iridium Catalysts for Alkane Metathesis

Author

Brad C. Bailey, Richard R. Schrock, Carolyn Supplee, Maurice Brookhart, Alan S. Goldman, Agnieszka J. Nawara-Hultzsch, Jason D. Hackenberg, Benudhar Punji, and Thomas J. Emge

Subjects

Phosphinite, Alkane metathesis, Homogeneous catalysis, General Chemistry, Metathesis, Medicinal chemistry, Catalysis, Pincer movement, chemistry.chemical_compound, chemistry, Organic chemistry, Ring-opening metathesis polymerisation, Phosphine

Abstract

Both the bisphosphine and bisphosphinite pincer complexes (tBu4PCP)IrH2 and (tBu4POCOP)IrH2 can cocatalyze alkane metathesis in tandem with olefin metathesis catalysts, but the two complexes have different resting states during catalysis, suggesting that different steps are turnover-limiting in each case. This led to the hypothesis that a complex with intermediate properties would be catalytically more active than either of these two species. Accordingly, “hybrid” phosphine–phosphinite pincer ligands (PCOP) and the corresponding iridium complexes were synthesized (3c–e). In tandem with olefin-metathesis catalyst MoF12, (tBu4PCOP)IrH2 displays significantly higher activity for the metathesis of n-hexane than does (tBu4PCP)IrH2 or (tBu4POCOP)IrH2. (tBu2PCOPiPr2)IrH4 (3d) is even more active (>30-fold more active than (tBu4POCOP)IrH2) and affords nearly 4.6 M alkane products after 8 h at 125 °C.

Published

2013

2. Catalytic dehydroaromatization of n-alkanes by pincer-ligated iridium complexes

Author

Benudhar Punji, Carolyn Supplee, Ritu Ahuja, William L. Schinski, Maurice Brookhart, Michael Findlater, and Alan S. Goldman

Subjects

chemistry.chemical_classification, Molecular Structure, Chemistry, General Chemical Engineering, chemistry.chemical_element, General Chemistry, Iridium, Ligands, Octanes, Hydrocarbons, Aromatic, Ethylbenzene, Toluene, Catalysis, chemistry.chemical_compound, Alkanes, Hexanes, Organic chemistry, Dehydrogenation, Selectivity, Benzene, Alkyl, Hydrogen

Abstract

Aromatic hydrocarbons are among the most important building blocks in the chemical industry. Benzene, toluene and xylenes are obtained from the high temperature thermolysis of alkanes. Higher alkylaromatics are generally derived from arene-olefin coupling, which gives branched products--that is, secondary alkyl arenes--with olefins higher than ethylene. The dehydrogenation of acyclic alkanes to give alkylaromatics can be achieved using heterogeneous catalysts at high temperatures, but with low yields and low selectivity. We present here the first catalytic conversion of n-alkanes to alkylaromatics using homogeneous or molecular catalysts--specifically 'pincer'-ligated iridium complexes--and olefinic hydrogen acceptors. For example, the reaction of n-octane affords up to 86% yield of aromatic product, primarily o-xylene and secondarily ethylbenzene. In the case of n-decane and n-dodecane, the resulting alkylarenes are exclusively unbranched (that is, n-alkyl-substituted), with selectivity for the corresponding o-(n-alkyl)toluene.

Published

2010

3. SYNTHESIS AND TWO-DIMENSIONAL NMR ANALYSIS OF ETHYL ALLYL-t-BUTYLPHOSPHINATE

Author

Devon W. Meek, Carolyn Supplee, and Carl Engelman

Subjects

Deuterium NMR, Proton, Carbon-13 NMR satellite, Stereochemistry, Chemistry, Chemical shift, Organic Chemistry, Fluorine-19 NMR, Carbon-13 NMR, Biochemistry, Homonuclear molecule, Inorganic Chemistry, Proton NMR, Physical chemistry

Abstract

The synthesis of ethyl allyl-t-butylphosphinate via the Michaelis-Arbuzov reaction between diethyl t-butylphosphinite and allylbromide is reported. The title compound gives rise to a highly symmetrical and complex 1H NMR spectrum. Two-dimensional homonuclear NMR experiments were used to resolve the diastereotopic proton chemical shifts and their short- and long-range coupling constants, JpH and JHH. These results, along with the computer simulation of the 1H NMR spectrum, are presented herein.

Published

1989