Your search keyword '"Junk CP"' showing total 5 results

1. Synthesis and properties of the strained alkene perfluorobicyclo[2.2.0]hex-1(4)-ene.

Author

Junk CP, He Y, Zhang Y, Smith JR, Gleiter R, Kass SR, Jasinski JP, and Lemal DM

Abstract

The title fluoroalkene has been generated by dehalogenation of dibromide and diiodide precursors and trapped in situ. retro-Diels-Alder reaction of its adduct with N-benzylpyrrole has made the alkene available in high yield and purity. In sharp contrast to its extremely labile hydrocarbon counterpart, the fluoroalkene is very stable yet highly reactive. Its characterization includes its electron affinity, photoelectron spectrum, and the previously reported structure determination by electron diffraction.

Published

2015

2. Physical and chemical absorptions of carbon dioxide in room-temperature ionic liquids.

Author

Yokozeki A, Shiflett MB, Junk CP, Grieco LM, and Foo T

Subjects

Absorption, Ions, Models, Theoretical, Carbon Dioxide chemistry, Temperature

Abstract

Gaseous solubilities of carbon dioxide (CO2) in 18 room-temperature ionic liquids (RTILs) have been measured at an isothermal condition (about 298 K) using a gravimetric microbalance. The observed pressure-temperature-composition (PTx) data have been analyzed by use of an equation-of-state (EOS) model, which has been successfully applied for our previous works. Henry's law constants have been obtained from the observed (PTx) data directly and/or from the EOS correlation. Ten RTILs among the present ionic liquids results in the physical absorption, and eight RTILs show the chemical absorption. The classification of whether the absorption is the physical or chemical type is based on the excess Gibbs and enthalpy functions as well as the magnitude of the Henry's constant. In the chemical absorption cases, the ideal association model has been applied in order to interpret those excess thermodynamic functions. Then, two types of the chemical associations (AB and AB2, where A is CO2 and B is RTIL) have been observed with the heat of complex formations of about -11 (for AB) and from -27 to -37 (for AB2) kJ x mol(-1), respectively.

Published

2008

3. Preparation and synthetic applications of aryl tetraflates (ArOSO2CF2CF2H).

Author

Rostovtsev VV, Bryman LM, Junk CP, Harmer MA, and Carcani LG

Subjects

Arylsulfonates chemistry, Catalysis, Magnetic Resonance Spectroscopy methods, Molecular Structure, Stereoisomerism, Arylsulfonates chemical synthesis, Hydrocarbons, Fluorinated chemistry, Sulfonic Acids chemistry

Abstract

We have recently developed an improved synthetic route to 1,1,2,2-tetrafluoroethanesulfonic acid (HCF2CF2SO3H, TFESA) and explored the applications of this newly available superacid in catalysis. Low volatility, ease of handling, and a convenient 1H NMR handle make this acid an attractive alternative to triflic acid. TFESA can also be converted to several of its derivatives: anhydride, sulfonyl chloride, and sulfonyl fluoride, which provide a good entry point for the synthesis of aryl sulfonates. We prepared several aryl esters of 1,1,2,2-tetrafluoroethanesulfonic acid (aryl tetraflates) and showed that they can be used in a number of palladium-catalyzed coupling reactions (Suzuki, Heck, and Buchwald-Hartwig couplings). While the reactivity of tetraflates lies between that of triflates and chlorides, tetraflates appear to be more thermally stable. Additionally, the presence of a hydrogen atom in the tetraflate group facilitates monitoring of reactions and characterization of derivatives.

Published

2008

4. Diels-Alder reactions of perfluorobicyclo[2.2.0]hex-1(4)-ene with aromatics.

Author

He Y, Junk CP, and Lemal DM

Abstract

[reaction: see text] The title perfluoroalkene cycloadds to a variety of aromatic hydrocarbons, including benzene. It is the first alkene to yield a Diels-Alder adduct with benzene and is thus among the most potent dienophiles known.

Published

2003

5. A remarkable [2.2.2]propellane.

Author

He Y, Junk CP, Cawley JJ, and Lemal DM

Abstract

To explore the effects of fluorine substitution on the highly strained [2.2.2]propellane skeleton, a new representative of this ring system, perfluorotricyclo[2.2.2.01,4]octan-2-one ethylene ketal, was prepared by a rapid and quantitative [2+2] cycloaddition to the strained alkene perfluorobicyclo[2.2.0]hex-1(4)-ene. The propellane displays impressive thermal stability, and the vulnerable C-C bond joining the bridgeheads is very resistant to attack by electrophilic reagents. On the other hand, that electron-deficient bond is cleaved quickly at room temperature by a variety of nucleophiles and mild reducing agents. The behavior of this compound contrasts dramatically with that of the only known [2.2.2]propellane lacking fluorine substituents.

Published

2003