Dehydrocoupling routes to element–element bonds catalysed by main group compounds

Abstract: Dehydrocoupling reactions, i.e. reactions involving elimination of H2 between two E-H bonds, provide a clean route to E-E bonds within the main group. The products afforded from these reactions have applications in organic synthesis and materials chemistry, and in addition the H2 released during these reactions can also be useful as an energy source. Previous methods for dehydrocoupling involve both thermal and transition metal catalysed routes but recent developments have shown that main group compounds can b… Show more

“…[15] Even Group 1a nd 2( maingroup metal) based complexes were found to be active catalysts for amine-boraned ehydrogenation. [16] In addition, several strategies have been developed to regenerate amine-boranes from the spent fuel material, which provides ap roof of concept for the use of amine-boranes as reusableh ydrogen storage materials. [17] In recent years there has been ah uge growth in the chemistry of p-block species, and in particulartheir ability to effect reactivity that was previously thought to be exclusive to transition-metal complexes.T his metallomimetic reactivity has been spearheaded by the development of frustrated Lewis pairs and low-coordinate main-group species, which between them are capable of activating ar ange of small molecules including dihydrogen, carbon dioxide, and even dinitrogen.…”

Dehydrogenation of Amine–Boranes Using p‐Block Compounds

“…[15] Even Group 1a nd 2( maingroup metal) based complexes were found to be active catalysts for amine-boraned ehydrogenation. [16] In addition, several strategies have been developed to regenerate amine-boranes from the spent fuel material, which provides ap roof of concept for the use of amine-boranes as reusableh ydrogen storage materials. [17] In recent years there has been ah uge growth in the chemistry of p-block species, and in particulartheir ability to effect reactivity that was previously thought to be exclusive to transition-metal complexes.T his metallomimetic reactivity has been spearheaded by the development of frustrated Lewis pairs and low-coordinate main-group species, which between them are capable of activating ar ange of small molecules including dihydrogen, carbon dioxide, and even dinitrogen.…”

Dehydrogenation of Amine–Boranes Using p‐Block Compounds

“…Emerging from years of curiosity‐driven research that uncovered novel structures and bonding, main‐group (pre)catalysts have recently found application in a range of important catalytic processes, including hydroamination,2 hydroboration and hydrosilylation,3 hydrogenation,4 and dehydrogenative element–element bond formation 5. The last named is particularly relevant since the catalytic control of dehydrocoupling processes (e.g., formation of B−N bonds) has relevance to hydrogen storage6 as well as utility in the synthesis of polymers and preceramic materials 7.…”

Lithium Dihydropyridine Dehydrogenation Catalysis: A Group 1 Approach to the Cyclization of Diamine Boranes

“…The applications of silicon and boron derivatives in organic and inorganic chemistry are innumerable and their compounds containing bonds with other heteroatoms have received considerable attention, particularly as reagents in metal‐free reactions . The B‐O‐Si moiety is common in material chemistry, especially in the synthesis of poly(borosiloxane)s, which show unique and valuable properties, including high stability and heat resistance .…”

Chemoselective and Catalyst‐Free O‐Borylation of Silanols: A Facile Access to Borasiloxanes