Carrie L Burns

Publications (4)24.67 Total impact

• Article: Hopping of a single hole in hexakis[4-(1,1,2-triphenyl-ethenyl)phenyl]benzene cation radical through the hexaphenylbenzene propeller.

  Rajendra Rathore, Carrie L Burns, Sameh A Abdelwahed
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  ABSTRACT: A versatile synthesis of a dendritic structure (5) is described in which six tetraphenylethylene moieties are connected to a central benzene ring in such a way that one of the phenyl rings of each tetraphenylethylene is also part of the propeller of the hexaphenylbenzene core. Observation of multiple oxidation waves in its cyclovoltammogram as well as an intense charge-resonance transition in the near-IR region in its cation radical spectrum suggests that a single hole delocalizes via electron transfer over six identical redox-active centers. [structure--see text]
  Organic Letters 06/2004; 6(11):1689-92. · 5.86 Impact Factor
• Article: Synthesis and isolation of polytrityl cations by utilizing hexaphenylbenzene and tetraphenylmethane scaffolds.

  Rajendra Rathore, Carrie L Burns, Ilia A Guzei
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  ABSTRACT: The successful isolation of stable (and soluble) hexa- and tetratrityl cations based on hexaphenylbenzene and tetraphenylmethane scaffold has been accomplished by using readily available starting materials. These robust polytrityl cations can be isolated in crystalline form and stored indefinitely at 0 degrees C. Their structures have been established by (1)H/(13)C NMR spectroscopy and by UV-vis spectroscopy. The structures of these polytrityl cations were further confirmed by quantitative transformations to the reduced (poly)triphenylmethyl derivatives by hydride transfer from triethylsilane, cycloheptatriene, or a borane-dimethyl sulfide complex.
  The Journal of Organic Chemistry 04/2004; 69(5):1524-30. · 4.45 Impact Factor
• Article: A practical one-pot synthesis of soluble hexa-peri-hexabenzocoronene and isolation of its cation-radical salt.

  Rajendra Rathore, Carrie L Burns
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  ABSTRACT: A simple and practical synthesis of soluble hexa-peri-hexabenzocoronene (HBC) from readily available hexaphenylbenzene (HPB) is described. In this simple procedure, the substitution of the free para positions of the propeller-shaped HPB with tert-butyl groups and the oxidative cyclodehydrogenation to planar HBC is achieved in a one-pot reaction using ferric chloride both as a Lewis acid catalyst and as an oxidant in excellent yields. The ready availability of HBC allows the isolation of its pure cation-radical salt using a variety of chemical oxidants such as antimony pentachloride and triethyloxonium and nitrosonium hexachloroantimonate salts.
  The Journal of Organic Chemistry 06/2003; 68(10):4071-4. · 4.45 Impact Factor
• Article: A remarkably efficient synthesis of pure cis-stilbenoid hydrocarbons using trans-dibromoalkenes via palladium catalysis.

  Rajendra Rathore, Mihaela I Deselnicu, Carrie L Burns
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  ABSTRACT: A remarkably versatile synthesis of cis-stilbenoid hydrocarbons containing highly functionalized phenyl groups is developed via an efficient palladium-catalyzed coupling of aryl Grignard reagents with trans-1,2-dibromoalkenes (generally obtained via bromination of the corresponding dialkylacetylenes) in tetrahydrofuran.
  Journal of the American Chemical Society 01/2003; 124(50):14832-3. · 9.91 Impact Factor