Rotaxane and Catenane Host Structures for Sensing Charged Guest Species

Langton, Matthew J.; Beer, Paul D.

doi:10.1021/ar500012a

Cited by 274 publications

(137 citation statements)

References 67 publications

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“…It has previously been demonstrated that interlocked molecular architectures, such as rotaxanes and catenanes, which are decorated with convergent hydrogen‐ or halogen‐bond donor motifs, are effective anion hosts,29 and can also be functionalized with optical reporter groups, such as organic fluorophores,30, 31 transition metals32–34 or lanthanide cations35, 36 for anion‐sensing applications 37…”

Section: Introductionmentioning

confidence: 99%

Iodide Recognition and Sensing in Water by a Halogen‐Bonding Ruthenium(II)‐Based Rotaxane

Langton

Marques

Robinson

et al. 2015

Chemistry A European J

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The synthesis and anion‐recognition properties of the first halogen‐bonding rotaxane host to sense anions in water is described. The rotaxane features a halogen‐bonding axle component, which is stoppered with water‐solubilizing permethylated β‐cyclodextrin motifs, and a luminescent tris(bipyridine)ruthenium(II)‐based macrocycle component. 1H NMR anion‐binding titrations in D2O reveal the halogen‐bonding rotaxane to bind iodide with high affinity and with selectively over the smaller halide anions and sulfate. The binding affinity trend was explained through molecular dynamics simulations and free‐energy calculations. Photo‐physical investigations demonstrate the ability of the interlocked halogen‐bonding host to sense iodide in water, through enhancement of the macrocycle component’s RuII metal–ligand charge transfer (MLCT) emission.

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Section: Introductionmentioning

confidence: 99%

Iodide Recognition and Sensing in Water by a Halogen‐Bonding Ruthenium(II)‐Based Rotaxane

Langton

Marques

Robinson

et al. 2015

Chemistry A European J

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“…[2]Rotaxanes comprise a circular molecule (wheel) threaded over a linearly shaped molecule (axle) with large groups (blocking groups) attached to the axle's ends to keep the wheel threaded. Most of the original rotaxane-sensors operated by the wheel switching positions on the axle after an external stimulus is applied to give an observable signal [8][9][10][11][12][13]. While this class of sensors continues to show great promise, we are constructing sensors that operate via the controlled disassemblage of a rotaxane.…”

Section: Introductionmentioning

confidence: 99%

A Versatile Axle for the Construction of Disassemblage Rotaxanes

Powers

Smithrud

2016

Molecules

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Rotaxanes are unique mechanical devices that hold great promise as sensors. We report on two new rotaxanes that contain an acid or base sensitive trigger and readily disassemble in a wide range of environments. Disassemblage was observed under TLC and 1 H-NMR analysis. The axle is highly charged, which enhances solubility in aqueous environments, and can be readily derivatized with sensor components. The trigger was swapped in a one-pot method, which is promising for the rapid production of a series of sensors.

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“…Rotaxanes, with a typical mechanically interlocked structure, have been widely employed as crucial precursor and building blocks for the fabrication of advanced supramolecular architectures4 like molecular shuttles and switches with molecular motions upon certain external stimuli 5. Thus far a series of macrocyclic compounds including crown ethers, cyclodextrins, and cucurbit[ n ]urils have been applied to construct the rotaxane‐based molecular motors 6. Pillar[ n ]arenas, as the new member of functional macrocyclic family, have also been employed as good building block to create rotaxanes shortly after their first synthesis in 2008 7.…”

Section: Introductionmentioning

confidence: 99%

Multistimuli Sensitive Behavior of Novel Bodipy‐Involved Pillar[5]arene‐Based Fluorescent [2]Rotaxane and Its Supramolecular Gel

Sun

Xiao

et al. 2015

Advanced Science

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Fluorescent [2]rotaxane BC12P5 is successfully constructed with 1,4‐diethoxypillar[5]arene as wheel over a long alkyl axle with Bodipy chromophore as one stopper for the first time. NMR spectra clearly reveal its molecular shuttle nature triggered by multiple external stimuli including solvent polarity and temperature. In particular, the fluorescence nature introduced into [2]rotaxane BC12P5 renders it a good sensor for the external stimuli. Nevertheless, the supramolecular gel successfully fabricated from this novel rotaxane system via self‐assembly in dimethyl sulfoxide (DMSO) also shows reversible gel–sol phase transition upon multiple external stimuli such as heating/cooling, shaking/resting, or the addition of different anions. Interestingly, exposure of the supramolecular gel film to HCl or ammonia vapor induces the change in the film fluorescence intensity, endowing this system with a potential application in gas detecting.

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Rotaxane and Catenane Host Structures for Sensing Charged Guest Species

Cited by 274 publications

References 67 publications

Iodide Recognition and Sensing in Water by a Halogen‐Bonding Ruthenium(II)‐Based Rotaxane

Iodide Recognition and Sensing in Water by a Halogen‐Bonding Ruthenium(II)‐Based Rotaxane

A Versatile Axle for the Construction of Disassemblage Rotaxanes

Multistimuli Sensitive Behavior of Novel Bodipy‐Involved Pillar[5]arene‐Based Fluorescent [2]Rotaxane and Its Supramolecular Gel

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