Investigations of Metal-free Cannibalistic Hexadehydro-Diels-Alder and Pt-catalyzed Dimerization Reactions of Linked Aryl Bisdiynes

Abstract

The introductory chapter reviews the current state of mechanistic understanding of the hexadehydro-Diels-Alder (HDDA) reaction. With the rapid development of the HDDA reaction from its first discovery in 1997, the question of whether a concerted or stepwise mechanism better describes the thermally activated formation of ortho-benzyne from a diyne and a diynophile has been debated. Mechanistic and kinetic investigations were able to show that this is not a black or white situation, as minor changes can tip the balance. In chapter 2 of this thesis, the catalytic process leading from 1,11-bis(p-tolyl)undeca-1,3,8,10-tetrayne to fully-substituted naphthalene and azulene derivatives, by two different platinum-catalyzed dimerization pathways, was investigated. In chapter 3, the cannibalistic self-trapping reaction of an ortho-benzyne derivative generated from 1,11-bis(p-tolyl)undeca-1,3,8,10-tetrayne in an HDDA reaction was investigated. Without adding any specific trapping agent, the highly reactive benzyne is trapped by another bisdiyne molecule in at least three different modes. In chapter 4 direct UV/VIS spectroscopic evidence for the existence of an o-benzyne in solution is reported, and the dynamics of its formation in a photo-induced reaction are established. For this purpose, 1,11-bis(p-tolyl)undeca-1,3,8,10-tetrayne was investigated, using femtosecond transient absorption spectroscopy in the ultraviolet/visible region. In chapter 5, following the isolation and characterization of the reaction products discussed in chapter 3, further species resulting from reactions of the highly reactive ortho-benzyne derivative were identified.