Photolytic, radical-mediated hydrophosphination: a convenient post-polymerisation modification route to P-di(organosubstituted) polyphosphinoboranes [RR′PBH]

Photolytic, radical-mediated hydrophosphination: a convenient post-polymerisation modification route to P-di(organosubstituted) polyphosphinoboranes [RR′PBH]

Polymers with a phosphorus-boron main chain have attracted interest as novel inorganic materials with potentially useful properties since the 1950s. Although examples have recently been shown to be accessible via several routes, the materials reported so far have been limited to P-mono(organosubstit...

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Bibliographic Details
Published in:Chemical science (Cambridge) Vol. 1; no. 3; pp. 7281 - 7289
Main Authors: Knights, Alastair W, Chitnis, Saurabh S, Manners, Ian
Format: Journal Article
Language:English
Published: 14-08-2019
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Summary:Polymers with a phosphorus-boron main chain have attracted interest as novel inorganic materials with potentially useful properties since the 1950s. Although examples have recently been shown to be accessible via several routes, the materials reported so far have been limited to P-mono(organosubstituted) materials, [RHPBH 2 ] n , containing P-H groups. Here we report a general route for the post-polymerisation modification of such polyphosphinoboranes giving access to a large range of previously unknown examples featuring P-disubstituted units. Insertion of alkenes, R′CH&z.dbd;CH 2 into the P-H bonds of poly(phenylphosphinoborane), [PhHPBH 2 ] n was facilitated by irradiation under UV light in the presence of the photoinitiator 2,2-dimethoxy-2-phenylacetophenone (DMPAP) and (2,2,6,6-tetramethylpiperidin-1-yl)oxyl (TEMPO) under benchtop conditions giving high molar mass, air-stable polymers [PhR′PBH 2 ] n with controlled functionalisation and tunable material properties. The mechanistic explanation for the favourable effect of the addition of TEMPO was also investigated and was proposed to be a consequence of reversible binding to radical species formed from the photolysis of DMPAP. This new methodology was also extended to the formation of crosslinked gels and to water-soluble bottlebrush copolymers showcasing applicability to form a wide range of polyphosphinoborane-based soft materials with tunable properties. New, air-stable inorganic soft materials are accessible under mild conditions via TEMPO-mediated radical hydrophosphination of alkenes using polyphosphinoboranes.
Bibliography:10.1039/c9sc01428d
Electronic supplementary information (ESI) available. See DOI
ISSN:2041-6520
2041-6539
DOI:10.1039/c9sc01428d