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- Title
Ion-triggered spring-like motion of a double helicate accompanied by anisotropic twisting.
- Authors
Miwa, Kazuhiro; Furusho, Yoshio; Yashima, Eiji
- Abstract
Molecules that extend and contract under external stimuli are used to build molecular machines with nanomechanical functions. But although common in biological systems, such extension and contraction motions with helical molecules have rarely been accompanied by unidirectional twisting in synthetic systems. Here we show that sodium ions can trigger the reversible anisotropic twisting of an enantiomeric double-stranded helicate, without racemization. An optically active helicate consisting of two tetraphenol strands bridged by two spiroborate groups sandwiches a sodium ion. On removal of the central sodium—through addition of a cryptand [2.2.1] in solution—the double helicate extends. Crystallographic and nuclear magnetic resonance studies reveal that the extended helicate is over twice as long as the initial molecule, and is twisted in the right-handed direction. Circular dichroism analysis suggests that the twisting doesn't affect the helicate's handedness. This anisotropic extension–contraction process is reversibly triggered by the successive addition and removal of sodium ions in solution.
- Subjects
IONS spectra; ANISOTROPY; MOLECULAR dynamics; NANOELECTROMECHANICAL systems; SYSTEMS theory; BIOLOGICAL systems; IONIC structure; ENANTIOMERS; SODIUM ions
- Publication
Nature Chemistry, 2010, Vol 2, Issue 6, p444
- ISSN
1755-4330
- Publication type
Article
- DOI
10.1038/nchem.649