2016
DOI: 10.1021/acs.orglett.6b03457
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Remote Photoregulated Ring Gliding in a [2]Rotaxane via a Molecular Effector

Abstract: A molecular barbiturate messenger, which is reversibly released/captured by a photoswitchable artificial molecular receptor, is shown to act as an effector to control ring gliding on a distant hydrogen-bonding [2]rotaxane. Thus, light-driven chemical communication governing the operation of a remote molecular machine is demonstrated using an information-rich neutral molecule.

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Cited by 27 publications
(19 citation statements)
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“…Shuttling along the full length of the rotaxane axle could be restored by addition of Hamilton‐type receptors (e.g. 59 in Figure b) that competitively sequester barbital , …”
Section: Progress In Hydrogen Bond Templated Rotaxanes and Catenanesmentioning
confidence: 99%
“…Shuttling along the full length of the rotaxane axle could be restored by addition of Hamilton‐type receptors (e.g. 59 in Figure b) that competitively sequester barbital , …”
Section: Progress In Hydrogen Bond Templated Rotaxanes and Catenanesmentioning
confidence: 99%
“…The release of a hydrogen‐bonded molecule from a photoactivatable system was used by McClenaghan and Berna and co‐workers in 2017 to control the translational movement in a [2]rotaxane (see Figure ) . The release of a barbiturate messenger from a hydrogen‐bonding receptor ( 20 ) is effectuated by the [4+4] photocycloaddition of anthracene moieties.…”
Section: Chemical Concatenation With Other Speciesmentioning
confidence: 99%
“…[50][51][52][53] The release of ahydrogen-bonded molecule from aphotoactivatable system wasu sed by McClenaghana nd Berna and coworkers in 2017 to controlt he translational movement in a [ 2]rotaxane( see Figure 8). [54] The release of ab arbiturate messenger from ah ydrogen-bonding receptor (20)i se ffectuated by the [4+ +4] photocycloaddition of anthracene moieties. The barbiturate can then occupy hydrogen-bonding stations on the thread of the [2]rotaxane (21), which modulates the wheel gliding.…”
Section: Chemical Concatenation With Other Speciesmentioning
confidence: 99%
“…The study of mechanically interlocked molecules, such as catenanes, [1] knots, [2] and rotaxanes, [3] has enormously propelled progress in the field of molecular machines, [4] with control of shuttling motion [5] in rotaxanes and catenanes representing prominent highlights. [6] Use of remote control, [7] i. e., control via chemical signal transfer [8] from a remote relay, for operating the shuttling motion is yet unknown.…”
Section: Introductionmentioning
confidence: 99%