Phosphine-Borane Dehydrocoupling: The Synthesis of Tailored New Materials through Mechanistic Studies of Catalytic Processes
Lead Research Organisation:
University of Bristol
Department Name: Chemistry
Abstract
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Organisations
Publications
Stubbs NE
(2015)
B-Methylated Amine-Boranes: Substituent Redistribution, Catalytic Dehydrogenation, and Facile Metal-Free Hydrogen Transfer Reactions.
in Inorganic chemistry
Leitao E
(2013)
Catalysis in service of main group chemistry offers a versatile approach to p-block molecules and materials
in Nature Chemistry
Hooper TN
(2014)
Effect of the phosphine steric and electronic profile on the Rh-promoted dehydrocoupling of phosphine-boranes.
in Inorganic chemistry
Vance JR
(2014)
Iron-catalyzed dehydrocoupling/dehydrogenation of amine-boranes.
in Journal of the American Chemical Society
Schäfer A
(2015)
Iron-catalyzed dehydropolymerization: a convenient route to poly(phosphinoboranes) with molecular-weight control.
in Angewandte Chemie (International ed. in English)
Johnson HC
(2014)
Mechanistic studies of the dehydrocoupling and dehydropolymerization of amine-boranes using a [Rh(Xantphos)]? catalyst.
in Journal of the American Chemical Society
Marquardt C
(2015)
Metal-Free Addition/Head-to-Tail Polymerization of Transient Phosphinoboranes, RPH-BH2: A Route to Poly(alkylphosphinoboranes).
in Angewandte Chemie (International ed. in English)
Jurca T
(2018)
Step-growth titanium-catalysed dehydropolymerisation of amine-boranes.
in Chemical science
Turner J
(2017)
Synthesis, Characterization, and Properties of Poly(aryl)phosphinoboranes Formed via Iron-Catalyzed Dehydropolymerization
in Macromolecular Chemistry and Physics
Description | Important breakthroughs were made in terms of understanding the polymerization mechanism. We developed new polymers that may have useful applications. The publications arising from this grant are receiving very high levels of citation. |
Exploitation Route | The new polymers that we have developed may have useful applications as flame retardants and as functional polymers. We are interacting with a company that is interested in replacements for halogen-based flame retardants which are being phased out. |
Sectors | Aerospace, Defence and Marine,Energy,Other |
Description | The research has contributed to the global fundamental research database and has had considerable impact in this regard. We are also interacting with potential beneficiaries in terms of future exploitation of the work. One company is interested in the resulting polymers as flame retardant materials. |
First Year Of Impact | 2013 |
Sector | Aerospace, Defence and Marine,Energy,Other |
Impact Types | Economic |