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Self-assembly strategy for the design of soft nanocontainers with controlled properties

Lucia Yarullovna Zakharova 1, 2
Lucia Yarullovna Zakharova
Ruslan Ravilevich Kashapov 1
Ruslan Ravilevich Kashapov
Alla B Mirgorodskaya 1
Alla B Mirgorodskaya
Oleg Gerol'dovich Sinyashin 1, 2
Oleg Gerol'dovich Sinyashin
10.1016/j.mencom.2016.11.001
Published 2016-10-27
Focus articleVolume 26, Issue 6, 457-468
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Zakharova L. Y. et al. Self-assembly strategy for the design of soft nanocontainers with controlled properties // Mendeleev Communications. 2016. Vol. 26. No. 6. pp. 457-468.
GOST all authors (up to 50) Copy
Zakharova L. Y., Kashapov R. R., Pashirova T. N., Mirgorodskaya A. B., Sinyashin O. G. Self-assembly strategy for the design of soft nanocontainers with controlled properties // Mendeleev Communications. 2016. Vol. 26. No. 6. pp. 457-468.
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TY - JOUR
DO - 10.1016/j.mencom.2016.11.001
UR - https://mendcomm.colab.ws/publications/10.1016/j.mencom.2016.11.001
TI - Self-assembly strategy for the design of soft nanocontainers with controlled properties
T2 - Mendeleev Communications
AU - Zakharova, Lucia Yarullovna
AU - Kashapov, Ruslan Ravilevich
AU - Pashirova, Tatiana Nikandrovna
AU - Mirgorodskaya, Alla B
AU - Sinyashin, Oleg Gerol'dovich
PY - 2016
DA - 2016/10/27
PB - Mendeleev Communications
SP - 457-468
IS - 6
VL - 26
ER -
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@article{2016_Zakharova,
author = {Lucia Yarullovna Zakharova and Ruslan Ravilevich Kashapov and Tatiana Nikandrovna Pashirova and Alla B Mirgorodskaya and Oleg Gerol'dovich Sinyashin},
title = {Self-assembly strategy for the design of soft nanocontainers with controlled properties},
journal = {Mendeleev Communications},
year = {2016},
volume = {26},
publisher = {Mendeleev Communications},
month = {Oct},
url = {https://mendcomm.colab.ws/publications/10.1016/j.mencom.2016.11.001},
number = {6},
pages = {457--468},
doi = {10.1016/j.mencom.2016.11.001}
}
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Cite this
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Zakharova, Lucia Yarullovna, et al. “Self-assembly strategy for the design of soft nanocontainers with controlled properties.” Mendeleev Communications, vol. 26, no. 6, Oct. 2016, pp. 457-468. https://mendcomm.colab.ws/publications/10.1016/j.mencom.2016.11.001.
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Abstract

Organized systems based on amphiphiles are discussed from the viewpoint of their application as solubilizing agents and drug and gene delivery systems with structure–activity relationships and stimuli responsibility emphasized. Special attention is paid to cationic surfactants, including gemini and naturally originated compounds. Practically important lipid formulations, i.e., liposomes and solid lipid nanoparticles, are discussed in terms of their stability, loading capacity, surface modification and therapeutic efficacy. The stimuli responsibility of formulations is analyzed and exemplified by smart supramolecular systems based on a calixarene platform.

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Incorporation of a calixarene-based glucose functionalised bolaamphiphile into lipid bilayers for multivalent lectin recognition.
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Design and synthesis of a multivalent fluorescent folate–calix[4]arene conjugate: cancer cell penetration and intracellular localization
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Solubilization of new calix[4]resorcinols with amino acid substituents at the upper rim in surfactant micellar solutions
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Construction of a water-soluble form of amino acid C-methylcalix[4]resorcinarene
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Journal of Molecular Liquids, 2015
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Self-assembly strategies for improving the water solubility of new amino acid calix[4]resorcinarenes
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Tetrahedron Letters, 2015
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Surfactant systems: their use in drug delivery
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Amphiphilic O-functionalized calix[4]resocinarenes with tunable structural behavior
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A Supramolecular Amphiphile Based on Calix[4]resorcinarene and Cationic Surfactant for Controlled Self-Assembly
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Toward Directionally Controlled Molecular Motions and Kinetic Intra- and Intermolecular Self-Sorting: Threading Processes of Nonsymmetric Wheel and Axle Components
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Aggregation of p-Sulfonatocalixarene-Based Amphiphiles and Supra-Amphiphiles
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Cover Picture: (Chem. Eur. J. 1/2014)
Chemistry - A European Journal, 2013
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Design of supramolecular biomimetic catalysts of high substrate specificity by noncovalent self-assembly of calix[4]arenes with amphiphilic and polymeric amines
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Colloids and Surfaces B: Biointerfaces, 2014
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Nanoparticles functionalized with supramolecular host-guest systems for nanomedicine and healthcare.
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Superamphiphilic nanocontainers based on the resorcinarene – Cationic surfactant system: Synergetic self-assembling behavior
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Chemical Physics Letters, 2016
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Supramolecular systems based on calix[4]resorcine with mono-, di-, and tetracationic surfactants: Synergetic structural and solubilization behavior
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Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2014
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Controlling the release of hydrophobic compounds by a supramolecular amphiphilic assembly
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Hierarchical self-assembly of amphiphilic calix[6]arene wheels and viologen axles in water
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Organic and Biomolecular Chemistry, 2013
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Crystal violet dye in complexes with amphiphilic anionic calix[4]resorcinarenes: binding by aggregates and individual molecules.
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Influence of amidoammonium calix[4]resorcinarenes on methyl orange protolytic equilibrium: supramolecular indicator systems
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Supramolecular Chemistry, 2013
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Controlling the size and morphology of supramolecular assemblies of viologen-resorcin[4]arene cavitands.
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Chemistry - A European Journal, 2014
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Complexes of tetramethylensulfonatocalix(4)resorcinarene aggregates with methyl orange: Interactions with guests and driving force of color response
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Mendeleev Communications, 2013
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Electrochemical control of association and deposition of tetraviologen calix[4]resorcin
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Binding of 1,5-bis(p-sulfonatophenyl)-3,7-diphenyl-1,5-diaza-3,7-diphosphacyclooctane with tetramethylviologen calix[4]resorcin with a methyl radical in the resorcinol ring
Ziganshina A.Y., Nasybullina G.R., Yanilkin V.V., Nastapova N.V., Korshin D.E., Spiridonova Y.S., Kashapov R.R., Grüner M., Habicher W.D., Karasik A.A., Konovalov A.I.
Russian Journal of Electrochemistry, 2013
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Electrodriven molecular system based on tetraviologen calix[4]resorcine and dianion 1,5-bis(n-sulfonatophenyl)-3,7-diphenyl-1,5-diaza-3,7-diphosphacyclooctane
Yanilkin V.V., Nasybullina G.R., Nastapova N.V., Ziganshina A.Y., Korshin D.E., Spiridonova Y.S., Gruner M., Habicher W.D., Karasik A.A., Konovalov A.I.
Electrochimica Acta, 2013