Fluorophobic Effect Induces the Self-Assembly of Semifluorinated Tapered Monodendrons Containing Crown Ethers into Supramolecular Columnar Dendrimers Which Exhibit a Homeotropic Hexagonal Columnar Liquid Crystalline Phase

Percéc, Virgil; Johansson, Gary; Ungar, Goran; Zhou, Jianping

doi:10.1021/ja9615738

Cited by 400 publications

(262 citation statements)

References 63 publications

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“…The close scaling of size (30,33), shape, and quasi-equivalency of surfaces (37)(38)(39) observed between nanoscale biostructures and various dendrimer families͞generational levels is both striking and provocative (30,40). These remarkable similarities suggest a broad strategy based on rational biomimicry as a means for creating a repertoire of structure-controlled, sizevariable, and shape-variable dendrimer assemblies.…”

mentioning

confidence: 94%

Partial shell-filled core-shell tecto(dendrimers): A strategy to surface differentiated nano-clefts and cusps

Tomalia

Piehler²,

Durst³

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

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Poly(amidoamine) (PAMAM) dendrimer shell reagents possessing either nucleophilic (i.e., primary amines) or electrophilic (i.e., carboxymethyl esters) functional groups have been covalently assembled around appropriate electrophilic or nucleophilic dendrimer core reagents to produce partial shell filled͞core-shell tecto(dendrimers). Partial shell-filled products with saturation levels ranging from 28% to 66% were obtained. These metastable, remarkably monodispersed assemblies possess functionally differentiated nano-cusps and clefts that exhibit ''autoreactive'' behavior. Pacification of these autoreactive products with appropriate alkanolamine reagents produced robust, nonreactive, ''hydroxy-aminedifferentiated'' surfaces that exhibit very active self-assembly properties. Based on the monodispersity, dimensional scaling, and electrophoretic similarities of PAMAM dendrimers to globular proteins, these assemblies may be viewed as crude biomimetics of classical core shell-type protein aggregates. These dimensionally larger, but analogous PAMAM core-shell tecto(dendrimer) architectures extend and complete a similar pattern of autoreactivity and pacification that was observed earlier for traditional mono PAMAM dendrimer core-shell modules possessing unsaturated shell levels.

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mentioning

confidence: 94%

Partial shell-filled core-shell tecto(dendrimers): A strategy to surface differentiated nano-clefts and cusps

Tomalia

Piehler²,

Durst³

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

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“…It has already been shown that cations can template the formation of ion-channel columnar architectures. Seminal work by Percec et al (15)(16)(17)(18)(19)(20) has demonstrated the self-assembly of dendronized crown ethers into ion channels via complexation of cations. The G-quartet, the hydrogen-bonded macrocycle formed by the self-assembly of four guanosines, is stabilized by cations.…”

mentioning

confidence: 99%

Dynamic hybrid materials for constitutional self-instructed membranes

Cazacu

Legrand

Pasc

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

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Constitutional self-instructed membranes were developed and used for mimicking the adaptive structural functionality of natural ionchannel systems. These membranes are based on dynamic hybrid materials in which the functional self-organized macrocycles are reversibly connected with the inorganic silica through hydrophobic noncovalent interactions. Supramolecular columnar ion-channel architectures can be generated by reversible confinement within scaffolding hydrophobic silica mesopores. They can be structurally determined by using X-ray diffraction and morphologically tuned by alkali-salts templating. From the conceptual point of view, these membranes express a synergistic adaptive behavior: the simultaneous binding of the fittest cation and its anion would be a case of ''homotropic allosteric interactions,'' because in time it increases the transport efficiency of the pore-contained superstructures by a selective evolving process toward the fittest ion channel. The hybrid membranes presented here represent dynamic constitutional systems evolving over time to form the fittest ion channels from a library of molecular and supramolecular components, or selecting the fittest ion pairs from a mixture of salts demonstrating flexible adaptation.crown-ethers ͉ ion channels ͉ self-assembly

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“…Each repeating units bears a branching point to which two or several new repeating units are attached. Owing to their unique properties such as solubility in water, well defined molecular architecture, and spherical shape, dendrimers and metallodendrimers have found numerous applications in chemical, physical and biological processes [16][17][18].…”

Section: A Brief Discussionmentioning

confidence: 99%

A Review on Dendrimers and Metallodendrimers, the Important Compounds as Catalyst in Material Chemistry

Alam¹,

Jahan²,

Khan³

2017

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Abstract:The research and the usage of the dendrimers and metallodendrimer compounds which are also known as supramolecules are attracted by the scientists very fast. The use of these two types of compounds are developed and spread out from the chemical to materials throughout the world. One of the important applications of these supramolecules is as catalyst in the different fields of chemistry and material sciences.

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Fluorophobic Effect Induces the Self-Assembly of Semifluorinated Tapered Monodendrons Containing Crown Ethers into Supramolecular Columnar Dendrimers Which Exhibit a Homeotropic Hexagonal Columnar Liquid Crystalline Phase

Cited by 400 publications

References 63 publications

Partial shell-filled core-shell tecto(dendrimers): A strategy to surface differentiated nano-clefts and cusps

Partial shell-filled core-shell tecto(dendrimers): A strategy to surface differentiated nano-clefts and cusps

Dynamic hybrid materials for constitutional self-instructed membranes

A Review on Dendrimers and Metallodendrimers, the Important Compounds as Catalyst in Material Chemistry

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