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ADAM DALY, STEPHEN G. KUKOLICH, Department of Chemistry and Biochemistry, The University of Arizona, Tucson, Arizona 85721.; CHAKREE TANJAROON, Department of Chemistry and Physics, Arkansas State University, Jonesboro, AR 72467; ADAM J. V. MARWITZ AND SHIH-YUAN LIU, Department of Chemistry, University of Oregon, Eugene, OR 97403.
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The first microwave spectra for the unusual and elusive aromatic molecules, 1,2-dihydro-1,2-azaborine (azaborine) and 1-ethyl-azaborine have been measured, in the 7-18 GHz range, providing accurate rotational constants, nitrogen and boron quadrupole coupling strengths, important bond lengths and other structural parameters. Azaborine (BNC4H6)is an aromatic, B-N substituted analog of benzene, the quintessential aromatic molecule. The experimental bond lengths determined for azaborine are: R(B-N) = 1.45(3) Å, R(B-C) = 1.51(1) Å, and R(N-C) = 1.37(3) Å. Accurate measurements of 14N, 11B, and 10B nuclear quadrupole coupling were obtained. The inertial defect
= 0.02 amu Å2 indicating a planar structure. A Townes-Dailey population analysis of the B and N quadrupole coupling constants provided the valence p-electron occupancy