Your search keyword '"T. Connell"' showing total 3 results

1. Chiral Nickel(II) and Palladium(II) NCN-Pincer Complexes Based on Substituted Benzene: Synthesis, Structure, and Lewis Acidity

Author

Alejandro Bugarin and Brian T. Connell

Subjects

chemistry.chemical_classification, Chemistry, Ligand, Organic Chemistry, Inorganic chemistry, chemistry.chemical_element, Crystal structure, Medicinal chemistry, Oxidative addition, Pincer movement, Inorganic Chemistry, Nickel, Electronic effect, Physical and Theoretical Chemistry, Counterion, Palladium

Abstract

Air- and moisture-stable nickel(II) and palladium(II) complexes from phebox pincer ligands 1−5 have been synthesized, and their Lewis activity was investigated. 2,6-Bis(oxazolinyl)phenylnickel halide complexes [NiX(phebox)] and 2,6-bis(oxazolinyl)phenylpalladium halide complexes [PdX(phebox)] were synthesized via oxidative addition with [Ni(COD)2] or Pd2dba3, respectively, followed by halide abstraction using silver(I) salts to form complexes such as [Ni(phebox)][ClO4] (41). Herein, X-ray crystal structures are reported for several pincer complexes having the expected square-planar geometries with the terdentate NCN pincer system. Complexes with general structure [M(phebox)]X where X is a halogen showed no relative Lewis acidity. On the other hand, complexes where X was exchanged for a less coordinating counterion showed increased Lewis acidity. The relative Lewis acidity varies depending on the substituents on the benzene core of the pincer ligands, due to the electronic effects of the ligand on the meta...

Published

2008

2. Conversion of Acid Chlorides to Substituted Acetylenes with Tungsten Alkylidynes

Author

Robert H. Grubbs, Brian T. Connell, and Thomas A. Kirkland

Subjects

Inorganic Chemistry, Chemistry, Organic Chemistry, Inorganic chemistry, Organic chemistry, chemistry.chemical_element, Physical and Theoretical Chemistry, Tungsten, equipment and supplies

Abstract

Our investigation into the conversion of acid chlorides to substituted acetylenes using tungsten alkylidynes is presented. Several acid chlorides can be converted to acetylenes in good yields, although a more straightforward synthesis of the required tungsten alkylidynes would be desirable.

Published

2005

3. A Ruthenium-Based Catalyst System for Hydrovinylation at Room Temperature.

Author

Richard P. Sanchez Jr. and Brian T. Connell

Subjects

*CATALYSIS, *RUTHENIUM, *TEMPERATURE, *PARTICLES (Nuclear physics)

Abstract

A catalytic amount of RuHCl(CO)(PCy 3) 2( 1) activated with AgOTF or AgSbF 6at room temperature was found to be an effective catalyst system for the hydrovinylation of vinylarenes. Vinylarenes with both electron-donating and electron-withdrawing substituents reacted with ethylene at room temperature to provide the desired 3-arylbutenes in moderate to excellent yield (60−99%) under mild reaction conditions. [ABSTRACT FROM AUTHOR]

Published

2008