Arylethynyl receptors for neutral molecules and anions: emerging applications in cellular imaging

Carroll, Calden N.; Naleway, John J.; Haley, Michael M.; Johnson, Darren W.

doi:10.1039/b926231h

Cited by 75 publications

(40 citation statements)

References 123 publications

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“…1–5 Molecular recognition, 6, 7 self-assembly, 8 lock-key modality 9 and reversibility 10 are among the most important features that enable supramolecular chemistry to be employed in many applications including catalysis, 11, 12 delivery, 13, 14 sensing, 15–17 and imaging. 18 These applications use building blocks assembled together by intermolecular interactions including electrostatic interactions, 19 hydrogen bonding, 20 π–π interactions, 21 ion-dipole interactions, 22, 23 hydrophobic or solvophobic effects. 24 …”

mentioning

confidence: 99%

Binding studies of cucurbit[7]uril with gold nanoparticles bearing different surface functionalities

Tonga

Mizuhara

Saha

et al. 2015

Tetrahedron Letters

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Host-guest interactions between a synthetic receptor, cucurbit[7]uril (CB[7]), and gold nanoparticles (AuNPs) have been quantified using isothermal titration calorimetry. AuNPs were functionalized with ligands containing tertiary or quaternary benzylamine derivatives, with electron donating or withdrawing groups at the para position of the benzene ring. Analysis of binding interactions reveals that functional groups at the para position have no significant effect on binding constant. However, headgroups bearing a permanent positive charge increased the binding of AuNPs to CB[7] ten-fold compared to monomethyl counterparts.

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confidence: 99%

Binding studies of cucurbit[7]uril with gold nanoparticles bearing different surface functionalities

Tonga

Mizuhara

Saha

et al. 2015

Tetrahedron Letters

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“…The simple derivatization of this class of receptors allows for a “turn-on” fluorescence response to analytes in increasingly polar solvents, a feature often lacking in small molecule organic anion probes. 24 …”

Section: Resultsmentioning

confidence: 99%

“…), 25–27 have been exploited for applications such as liquid crystals, 28 lightemitting materials, 29 rotaxane-type structures, 30 molecular magnets, 31 antiangiogenic activity, 32 polymer composites 33 and coordination complexes. 24,34,35 In contrast, the supramolecular chemistry of 2,6-bis(arylethynyl)pyridines has received little attention, perhaps in part due to the scarcity of uniting the fields of molecule/ion recognition with the synthesis of highly-conjugated, carbon-rich materials. Most of the host/guest studies reported have focused on exploiting the pyridine lone pair to bind metal ions 22 or organoiodides.…”

Section: Introductionmentioning

confidence: 99%

Synthesis and optoelectronic properties of 2,6-bis(2-anilinoethynyl)pyridine scaffolds

et al. 2012

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A series of sixteen bisphenylureas based on a 2,6-bis(2-anilinoethynyl)pyridine scaffold have been synthesized for use as potential anion sensors. Prior work with one of these receptors revealed a distinct fluorescence response in the presence of a suitable anion source with specificity towards chloride anion. This study demonstrates that the fluorescent properties of these receptors can be tuned through the systematic variation of the pendant functional groups.

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“…We have previously described a series of both bis(-sulfonamido)- and bis(urea)ethynylpyridines that exhibit positive fluorescent responses to anions with the right combination of electron-donating and/or electron-withdrawing substituents on the pendant phenyl rings. [4, 25–29, 77] The bis-ureas (e.g., 25 – 28 , Figure 17) exhibit a rich solvent-based conformational dependence, showing in the solid state that “S”-, “U”- and “W”-type conformations are all possible depending on solvent guests (for instance, “S” shown in 28 , “U” shown in 25 – 27 ). [27] …”

Section: Charged Speciesmentioning

confidence: 99%

“…[3] Alternatively, inclusion of an alkyne linkage between aryl groups has been utilized within synthetic molecular hosts, both for its ability to directly connect two units by an essentially inflexible spacer, and for the electronic conjugation it enables between the two aryl units. [4] …”

Section: Introductionmentioning

confidence: 99%

Ion and Molecular Recognition Using Aryl–Ethynyl Scaffolding

Vonnegut

Tresca

Johnson

et al. 2015

Chemistry An Asian Journal

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The aryl–ethynyl linkage has been extensively employed in the construction of hosts for a variety of guests. Uses range from ion detection (e.g., of metal cations in the environment or industrial waste and of anions prevalent in nature), to molecular mimics for biological systems, and to applications targeting future safety issues (such as CO2 capture and indicators for the manufacture of chemical weapons). This Focus Review examines the utilization of the aryl–ethynyl linkage in engineering host molecules for a variety of different guests, and how the alkyne unit plays an integral part as both a rigid scaffolding section in host geometry design as well as a linker to allow conjugative communication between discrete π-electron systems.

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Arylethynyl receptors for neutral molecules and anions: emerging applications in cellular imaging

Cited by 75 publications

References 123 publications

Binding studies of cucurbit[7]uril with gold nanoparticles bearing different surface functionalities

Binding studies of cucurbit[7]uril with gold nanoparticles bearing different surface functionalities

Synthesis and optoelectronic properties of 2,6-bis(2-anilinoethynyl)pyridine scaffolds

Ion and Molecular Recognition Using Aryl–Ethynyl Scaffolding

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