Catalyst‐Free Polyhydroboration of Dodecaborate Yields Highly Photoluminescent Ionic Polyarylated Clusters

Lee, Mark W.

doi:10.1002/ange.201608249

Angewandte Chemie

2016

DOI: 10.1002/ange.201608249

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Catalyst‐Free Polyhydroboration of Dodecaborate Yields Highly Photoluminescent Ionic Polyarylated Clusters

Mark W. Lee

Abstract: The incorporation of polyhedral boranes into novel photoluminescent materials is an area with increasing interest. While the neutral carboranes have been widely investigated for this purpose, the dodecaborate ion has received much less attention. Herein we report a significant expansion to the scope of substitution reactions for the dodecaborate ion, whereby this cluster was observed to react directly with a wide range of arenes in a step-wise and controlled manner. In the products of these reactions, the dode… Show more

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Rh^III‐Catalyzed Functionalization of closo‐Dodecaborates by Selective B−H Activation: Bypassing Competitive C−H Activation

Zhang

Wang

et al. 2018

Chemistry A European J

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The closo-dodecaborate dianion is a fundamental icosahedral boron cage with 12 identical B-H vertices. The chemistry and applications of boron clusters have inspired researchers ever since their discovery several decades ago, and the selective modification of the cage positions has remained a major synthetic challenge. A rhodium(III)-catalyzed B-H functionalization-cyclization cascade of closo-dodecaborate amides is reported. The transformations occur chemoselectively at B-H positions in the presence of C-H bonds prone to competitive cyclometalation. Previously inaccessible cage derivatives with B-C(sp ) and B-C(sp ) bonds as well as a fused diboraoxazole ring are obtained in a one-pot process. The reactions proceed under mild conditions and exhibit complete cage regioselectivity with broad functional group tolerance. These cluster derivatives enable a largely extended investigation of the application of anionic boron clusters in research areas such as photoluminescent materials and medicinal chemistry.

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Rh^III‐Catalyzed Functionalization of closo‐Dodecaborates by Selective B−H Activation: Bypassing Competitive C−H Activation

Zhang

Wang

et al. 2018

Chemistry A European J

View full text Add to dashboard Cite

show abstract

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Catalyst‐Free Polyhydroboration of Dodecaborate Yields Highly Photoluminescent Ionic Polyarylated Clusters

Cited by 1 publication

References 39 publications

Rh^III‐Catalyzed Functionalization of closo‐Dodecaborates by Selective B−H Activation: Bypassing Competitive C−H Activation

Rh^III‐Catalyzed Functionalization of closo‐Dodecaborates by Selective B−H Activation: Bypassing Competitive C−H Activation

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Catalyst‐Free Polyhydroboration of Dodecaborate Yields Highly Photoluminescent Ionic Polyarylated Clusters

Cited by 1 publication

References 39 publications

RhIII‐Catalyzed Functionalization of closo‐Dodecaborates by Selective B−H Activation: Bypassing Competitive C−H Activation

RhIII‐Catalyzed Functionalization of closo‐Dodecaborates by Selective B−H Activation: Bypassing Competitive C−H Activation

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Product

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Rh^III‐Catalyzed Functionalization of closo‐Dodecaborates by Selective B−H Activation: Bypassing Competitive C−H Activation

Rh^III‐Catalyzed Functionalization of closo‐Dodecaborates by Selective B−H Activation: Bypassing Competitive C−H Activation