Journal
CHEMICAL COMMUNICATIONS
Volume 47, Issue 4, Pages 1124-1150Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c0cc02921a
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Funding
- Tokyo Metropolitan University
- JSPS (Japan-UK) [21550137]
- University of Bath
- Royal Society
- Sasakawa Foundation
- Daiwa Foundation
- EPSRC [DT/F00267X/1]
- University of Birmingham
- ERDF AWM II
- JSPS [BR090301]
- Leverhulme Trust [F/00351/P, F/00094/BC]
- Royal Society [2007/R2]
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Dynamic covalent functionality has been acknowledged as a powerful tool for the construction of organised architectures, the reversible nature thermodynamically facilitates self-control and self-correction. The use of boronic acids complexation with diols and their congeners has already shown great promise in realising and developing reversible boron-containing multicomponent systems with dynamic covalent functionality. The structure-directing potential has lead to the development of a variety of self-organisation involving not only macrocycles, cages and capsules, but also porous covalent organic frameworks and polymers. Structure controls as well as remarkable synthesis are highlighted in this feature article.
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