Double Diels−Alder Strategies to Soluble 2,9- and
2,9,6,13-Tetraethynylpentacenes, Photolytic [4 + 4] Cycloadditions,
and Pentacene Crystal Packing
Christophe P. Bénard
Zhe Geng
Matthew A. Heuft
Kelly VanCrey
Alex G. Fallis
10.1021/jo0709807.s004
https://acs.figshare.com/articles/journal_contribution/Double_Diels_Alder_Strategies_to_Soluble_2_9_and_2_9_6_13_Tetraethynylpentacenes_Photolytic_4_4_Cycloadditions_and_Pentacene_Crystal_Packing/2985706
Four new classes of organic solvent soluble ethynylpentacene derivatives (2,9-, 2,10-, 2,6,9,13-, 2,6,10,13-) have been prepared by complementary, versatile, double Diels−Alder strategies. Functional groups
on the A, C, and E rings can be manipulated to increase the solubility, modulate the electronics, and alter
the solid-state packing. Cycloaddition reactions with diene <b>2</b> and 1,4,5,8-anthradiquinone (<b>3</b>) or <i>ortho</i>-quinodimethane <b>19</b> with 1-butyl-3-methylimidazolim iodide (<b>18</b>) as the iodide source (a significant
improvement over NaI) and benzoquinone (<b>20</b>) followed by in situ aromatization afforded the quinones
<b>4</b>, <b>5</b>, <b>21</b>, and <b>22</b>, respectively. For the 2,9- and 2,10- families, a one-pot desilylation/triflation was developed.
Palladium(0) coupling and reductive aromatization afforded 2,9-di(triisopropylsilylethynyl)pentacene (<b>10</b>)
and 2,10-di(triisopropylsilylethynyl)pentacene (<b>11</b>), respectively. Photodimerization of these pentacenes
afforded the air-stable [4 + 4] cycloaddition pentacene precursors (tetrakisnaphthotricyclo[4.2.2.2<sup>2,5</sup>]dodecanes, <b>12</b><b>−</b><b>15</b>). Thermal cycloreversion of the dimers (∼13 J/g, ∼4 kcal/mol) produces the parent
pentacenes (<b>10</b> or <b>11</b>). The tetrasubstituted family utilized a parallel route with extra versatility as the
timing of the Grignard and palladium(0) coupling step may be varied depending upon the functional
group combinations desired. The subsequent reactions provided the tetraethynylpentacenes <b>28</b><b>−</b><b>30</b>, <b>33</b><b>−</b><b>35</b> (para-isomers), and <b>38</b> (meta-isomer). X-ray crystallography analysis of <b>28</b>,<b> 29</b>, and <b>33</b> revealed various
π−π stacked packing motifs that differ from the unfavorable herringbone pattern of pentacene.
2007-09-14 00:00:00
Functional groups
Cycloaddition reactions
herringbone pattern
diene 2
Diel
iodide source
reductive aromatization
pentacene
E rings
tetrasubstituted family
Pentacene Crystal PackingFour
group combinations