Molecules (Jun 2023)

A Window into the Workings of <i>anti</i>-B<sub>18</sub>H<sub>22</sub> Luminescence—Blue-Fluorescent Isomeric Pair 3,3′-Cl<sub>2</sub>-B<sub>18</sub>H<sub>20</sub> and 3,4′-Cl<sub>2</sub>-B<sub>18</sub>H<sub>20</sub> (and Others)

  • Marcel Ehn,
  • Dmytro Bavol,
  • Jonathan Bould,
  • Vojtěch Strnad,
  • Miroslava Litecká,
  • Kamil Lang,
  • Kaplan Kirakci,
  • William Clegg,
  • Paul G. Waddell,
  • Michael G. S. Londesborough

DOI
https://doi.org/10.3390/molecules28114505
Journal volume & issue
Vol. 28, no. 11
p. 4505

Abstract

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The action of AlCl3 on room-temperature tetrachloromethane solutions of anti-B18H22 (1) results in a mixture of fluorescent isomers, 3,3′-Cl2-B18H20 (2) and 3,4′-Cl2-B18H20 (3), together isolated in a 76% yield. Compounds 2 and 3 are capable of the stable emission of blue light under UV-excitation. In addition, small amounts of other dichlorinated isomers, 4,4′-Cl2-B18H20 (4), 3,1′-Cl2-B18H20 (5), and 7,3′-Cl2-B18H20 (6) were isolated, along with blue-fluorescent monochlorinated derivatives, 3-Cl-B18H21 (7) and 4-Cl-B18H21 (8), and trichlorinated species 3,4,3′-Cl3-B18H19 (9) and 3,4,4′-Cl3-B18H19 (10). The molecular structures of these new chlorinated derivatives of octadecaborane are delineated, and the photophysics of some of these species are discussed in the context of the influence that chlorination bears on the luminescence of anti-B18H22. In particular, this study produces important information on the effect that the cluster position of these substitutions has on luminescence quantum yields and excited-state lifetimes.

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