Exploring the reactivity of cationic rhodium xantphos complexes with amine-boranes

<p>This thesis explores the reactivity of amine-boranes with the {Rh(Xantphos)}+ fragment, with the aim of gaining mechanistic insight into the catalytic dehydropolymerisation of the amine-borane H₃B∙NMeH₂ to yield the polyaminoborane [H₂BNMeH]_n.</p> <p>Chapter 2 describes the synthesis of suitable Rh^III and Rh^I Xantphos precursors to be used in this investigation. Moreover, the first example of the dehydrogenative B—B homocoupling of the tertiary amine-borane H₃B∙NMe₃ to form H₄B₂•2NMe₃ is reported.</p> <p>The synthesis of the Rh^I precatalyst introduced in Chapter 2 entails the hydroboration of <em>tert</em>-butylethylene by H₃B∙NMe₃. In Chapter 3, the ability of the {Rh(Xantphos)}+ fragment to mediate this hydroboration in a catalytic manner is explored, and a mechanism is presented in which reductive elimination is proposed to be turnover-limiting. Other alkenes and phosphine-boranes are also trialled to determine the scope of the hydroboration.</p> <p>Chapter 4 investigates the catalytic dehydrocoupling of H₃B∙NMe₂H and H₃B∙NMeH₂ with {Rh(Xantphos)}+ to form the dehydrocoupling products [H₂BNMe₂]₂ and [H₂BNMeH]_n, respectively, and the dehydrocoupling mechanisms are shown to be similar. Both involve an induction period in which the active catalyst is formed (thought to involve N—H activation), and saturation kinetics operate during the productive phase of catalysis. H₂ is shown to inhibit the dehydrocoupling, and lead to production of shorter chain [H₂BNMeH]_n. Conversely, using THF as the dehydropolymerisation solvent instead of C₆H₅F results in longer chain [H₂BNMeH]_n.</p> <p>Finally, Chapter 5 presents new dicationic {Rh(Xantphos)}-based dimers, the formation of which involves loss of a phenyl group from the Xantphos ligands by P—C activation. The dimers are produced by routes involving either dehydrogenative homocoupling of H₃B∙NMe₃, or dehydrocoupling of H₃B∙NMe₂H. One of these dimers was tested as a catalyst for the dehydrocoupling of H₃B∙NMe₂H, and the reaction kinetics appear closely related those obtained using {Rh(Xantphos)}+, suggesting that the active catalysts in each system may be related. </p>