Solid-state and solution phase reactivity of 10-hydroxy-10,9-boroxophenanthrene: a model building block for self-assembly processes

Lyndsey Greig; Benson Kariuki; Scott Habershon; Neil Spencer; Roy Johnston; Kenneth Harris; D Philp

doi:10.1039/b110285k

Solid-state and solution phase reactivity of 10-hydroxy-10,9-boroxophenanthrene: a model building block for self-assembly processes

Lyndsey Greig, Benson Kariuki, Scott Habershon, Neil Spencer, Roy Johnston, Kenneth Harris, D Philp

Chemistry

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16 Citations (Scopus)

Abstract

The relative stability of 10-hydroxy-10,9-boroxophenathrene and its electrophilic reactivity are traced through experiment and calculations to the partially aromatic character of the boron-containing heterocyclic ring. The electrophilic reactivity of 10-hydroxy-10,9-boroxophenathrene towards itself in the solid state and towards other nucleophiles in solution is described. The mechanism of the solid-state reaction has been characterised by both X-ray diffraction and thermal analysis. In solution, however, 10-hydroxy-10,9-boroxophenathrene does not react with itself, although it does react rapidly and reversibly with benzylic alcohols in solution, even at low temperatures. This selective and reversible reaction is ideal for use in self-assembly processes.

Original language	English
Pages (from-to)	701-710
Number of pages	10
Journal	New Journal of Chemistry
Volume	26
Issue number	6
Early online date	7 May 2002
DOIs	https://doi.org/10.1039/b110285k
Publication status	Published - 7 Jun 2002

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abstract = "The relative stability of 10-hydroxy-10,9-boroxophenathrene and its electrophilic reactivity are traced through experiment and calculations to the partially aromatic character of the boron-containing heterocyclic ring. The electrophilic reactivity of 10-hydroxy-10,9-boroxophenathrene towards itself in the solid state and towards other nucleophiles in solution is described. The mechanism of the solid-state reaction has been characterised by both X-ray diffraction and thermal analysis. In solution, however, 10-hydroxy-10,9-boroxophenathrene does not react with itself, although it does react rapidly and reversibly with benzylic alcohols in solution, even at low temperatures. This selective and reversible reaction is ideal for use in self-assembly processes.",

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AU - Greig, Lyndsey

AU - Kariuki, Benson

AU - Habershon, Scott

AU - Spencer, Neil

AU - Johnston, Roy

AU - Harris, Kenneth

AU - Philp, D

PY - 2002/6/7

Y1 - 2002/6/7

N2 - The relative stability of 10-hydroxy-10,9-boroxophenathrene and its electrophilic reactivity are traced through experiment and calculations to the partially aromatic character of the boron-containing heterocyclic ring. The electrophilic reactivity of 10-hydroxy-10,9-boroxophenathrene towards itself in the solid state and towards other nucleophiles in solution is described. The mechanism of the solid-state reaction has been characterised by both X-ray diffraction and thermal analysis. In solution, however, 10-hydroxy-10,9-boroxophenathrene does not react with itself, although it does react rapidly and reversibly with benzylic alcohols in solution, even at low temperatures. This selective and reversible reaction is ideal for use in self-assembly processes.

AB - The relative stability of 10-hydroxy-10,9-boroxophenathrene and its electrophilic reactivity are traced through experiment and calculations to the partially aromatic character of the boron-containing heterocyclic ring. The electrophilic reactivity of 10-hydroxy-10,9-boroxophenathrene towards itself in the solid state and towards other nucleophiles in solution is described. The mechanism of the solid-state reaction has been characterised by both X-ray diffraction and thermal analysis. In solution, however, 10-hydroxy-10,9-boroxophenathrene does not react with itself, although it does react rapidly and reversibly with benzylic alcohols in solution, even at low temperatures. This selective and reversible reaction is ideal for use in self-assembly processes.

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Solid-state and solution phase reactivity of 10-hydroxy-10,9-boroxophenanthrene: a model building block for self-assembly processes

Abstract

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