%AKasun, Zachary [University of Texas at Austin; Department of Chemistry; Austin; USA]%AKasun, Zachary [University of Texas at Austin; Department of Chemistry; Austin; USA]%ASato, Hiroki [University of Texas at Austin; Department of Chemistry; Austin; USA]%ASato, Hiroki [University of Texas at Austin; Department of Chemistry; Austin; USA]%ANie, Jing [University of Texas at Austin; Department of Chemistry; Austin; USA]%ANie, Jing [University of Texas at Austin; Department of Chemistry; Austin; USA]%AMori, Yasuyuki [University of Texas at Austin; Department of Chemistry; Austin; USA]%AMori, Yasuyuki [University of Texas at Austin; Department of Chemistry; Austin; USA]%ABender, Jon [University of Texas at Austin; Department of Chemistry; Austin; USA]%ABender, Jon [University of Texas at Austin; Department of Chemistry; Austin; USA]%ARoberts, Sean [University of Texas at Austin; Department of Chemistry; Austin; USA]%ARoberts, Sean [University of Texas at Austin; Department of Chemistry; Austin; USA]%AKrische, Michael [University of Texas at Austin; Department of Chemistry; Austin; USA]%AKrische, Michael [University of Texas at Austin; Department of Chemistry; Austin; USA]%BJournal Name: Chemical Science; Journal Volume: 9; Journal Issue: 40 %D2018%IRoyal Society of Chemistry (RSC) %JJournal Name: Chemical Science; Journal Volume: 9; Journal Issue: 40 %K %MOSTI ID: 10073649 %PMedium: X %TAlternating oligo( o , p -phenylenes) via ruthenium catalyzed diol–diene benzannulation: orthogonality to cross-coupling enables de novo nanographene and PAH construction %X

Ruthenium(0) catalyzed diol–diene benzannulation enables formation ofp-bromo-terminated alternating oligo(o,p-phenylenes) and, therefrom, diverse PAH materials.

%0Journal Article