Lost in translation? Chirality effects in the self-assembly of nanostructured gel-phase materials.
about
Supramolecular Hydrogelators and Hydrogels: From Soft Matter to Molecular Biomaterials.Pyrene-based fluorescent supramolecular hydrogel: scaffold for energy transfer.Peptide conjugates of a nonsteroidal anti-inflammatory drug as supramolecular gelators: synthesis, characterization, and biological studies.Rational design of coumarin-based supramolecular hydrogelators for cell imaging.Poly(aryl ether) Dendrons with Monopyrrolotetrathiafulvalene Unit-Based Organogels exhibiting Gel-Induced Enhanced Emission (GIEE).Click chemistry-assisted, bis-cholesteryl-appended, isosorbide-based, dual-responsive organogelators and their self-assemblies.Organogel-hydrogel transformation by simple removal or inclusion of N-Boc-protection.Enhanced mechanical rigidity of hydrogels formed from enantiomeric peptide assemblies.Experimental and computational studies reveal an alternative supramolecular structure for fmoc-dipeptide self-assembly.Tuning nanostructure dimensions with supramolecular twisting.What kind of "soft materials" can we design from molecular gels?Stimuli-responsive gels as reaction vessels and reusable catalysts.Stimuli-responsive supramolecular polymeric materials.Peptides and peptidomimetics that behave as low molecular weight gelators.Emerging chirality in nanoscience.Characterization of supramolecular gels.Gelation induced supramolecular chirality: chirality transfer, amplification and application.Design of nanostructures based on aromatic peptide amphiphiles.Multifarious facets of sugar-derived molecular gels: molecular features, mechanisms of self-assembly and emerging applications.Self-Assembled Chiral Nanostructures as Scaffolds for Asymmetric Reactions.Enantioselective Recognition by Chiral Supramolecular Gels.Oxazolidinone-containing pseudopeptides: Supramolecular materials, fibers, crystals, and gels.Blending gelators to tune gel structure and probe anion-induced disassembly.A supramolecular hydrogelator of curcumin.Nanoscale biocoordination polymers: novel materials from an old topic.Switching between Phosphorescence and Fluorescence Controlled by Chiral Self-Assembly.Towards racemizable chiral organogelators.Chiral/ring closed vs. achiral/open chain triazine-based organogelators: induction and amplification of supramolecular chirality in organic gels.Charge-transfer interaction mediated organogels from 18β-glycyrrhetinic acid appended pyreneChiral bis(amino acid)- and bis(amino alcohol)-oxalamide gelators. Gelation properties, self-assembly motifs and chirality effects.Low-molecular-weight gelators consisting of hybrid cyclobutane-based peptides.Sonication-induced coiled fibrous architectures of Boc-L-Phe-L-Lys(Z)-OMe.A chiroptical switch based on supramolecular chirality transfer through alkyl chain entanglement and dynamic covalent bonding.Tb3+ sensitization in a deoxycholate organogel matrix, and selective quenching of luminescence by an aromatic nitro derivative.Chirality driven self-assembly in a fluorescent organogel.Tetrapeptide-coumarin conjugate 3D networks based on hydrogen-bonded charge transfer complexes: gel formation and dye release.Control of Metal Arrays Based on Heterometallics Masquerading in Heterochiral Aggregations of Chiral Clothespin-Shaped Complexes.Two-component supramolecular gels derived from amphiphilic shape-persistent cyclo[6]aramides for specific recognition of native arginine.Nanospheres, nanotubes, toroids, and gels with controlled macroscopic chirality.Simultaneous Adjustment of Size and Helical Sense of Chiral Nanospheres and Nanotubes Derived from an Axially Racemic Poly(phenylacetylene).
P2860
Q30781853-99F43999-FFE7-4F18-AE7A-35A952721880Q30838296-04A36F0E-FC96-4D04-86C1-C9B622E31921Q30844918-228EE256-FA62-4184-BBB3-17E6EDB4DEA7Q30865669-06D1CE6B-D8EB-47CA-BA09-741C4ABDF45DQ31006020-9178DC71-1C57-4526-A16F-6B2EEE12B382Q31096457-25F3DE12-3868-4CBB-8CEF-755B155E0A71Q34079918-F3C41695-D4F0-428A-BB26-3C7AE0D857B3Q35452677-771DC9DE-1CD6-49F2-886E-C23505D4A242Q36421319-AA009241-81EC-411A-82BA-5333639FA9E5Q36652231-22D65C01-79FB-4D19-B47E-96A868E1AE18Q37780498-6B259B85-4530-4371-A2B1-E046EC2660E7Q37793939-98C2AAD3-2EF0-49ED-9DDA-3D8419EB2F01Q38012349-5ACF6093-3460-4617-A01D-8F15FB9E2CF6Q38049117-256FF1CB-9BAE-45BF-9FE3-F0EB403493B3Q38064723-E54C2E48-AE04-4E14-8F4E-01EBCBAFA74CQ38112632-CF66284A-61B8-4036-92C0-96EB4E3E4333Q38224220-EB135A12-D3C2-4E7C-9293-6D457F9ECF46Q38246910-6C908AD5-9ED9-4DDE-897B-BF5613CB5535Q38507322-2EA63510-8E76-4719-B07A-ADF531FE72E8Q38739864-0FAC5F53-8D15-4D0E-BC19-89C21E2ACCDDQ38852855-ED193D37-FA95-496A-9A40-B1F1B0200F2EQ38880101-12F9062C-5FAF-4CD2-814C-01077E6EEB03Q38881905-856DBD65-9D68-4C9B-8116-28EE5CD10C29Q38976913-BC484641-36C8-4F15-8E24-5112F874973AQ39664852-2BFF34DD-1E2C-4032-9F43-49A685D81C00Q41711025-13D4CA98-81E0-427F-927C-52020996F5B6Q42362576-665BA05F-893A-45E7-8198-360136997A0EQ42654701-1F0F38D2-2FC6-497C-8287-9E1D0501841CQ42782244-E783502B-BAED-43CA-B5E8-A70BE82976BCQ43198083-2ADB94DC-73A0-4849-9B9A-A9646FF67D03Q44632217-E842F11C-98B0-44CC-95A3-1FBFDEFF61FCQ44643624-E14609D4-AFA8-4642-B47F-FDA9FAF60EC2Q44731777-2731BF01-E7D9-477A-8353-DE31A9A7E16FQ45412353-39F25BA0-7587-48B6-9F3E-C6E3CF9BE173Q45762640-B26A2D2B-35FE-45FF-AE57-D7247B1DEF26Q46340348-9C248404-F527-4900-B950-9B48AA06C6FFQ46694937-CE4C890F-C30B-4BE0-8A62-565C915539F5Q46839829-D2716305-807F-40D9-8A35-7C7379000F0AQ46840505-3E16B374-F061-469E-BCF4-A3DF2689ACBEQ47266107-405C2AEB-AEAC-4890-9054-37107CF0403E
P2860
Lost in translation? Chirality effects in the self-assembly of nanostructured gel-phase materials.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 06 January 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Lost in translation? Chirality ...... tructured gel-phase materials.
@en
Lost in translation? Chirality ...... tructured gel-phase materials.
@nl
type
label
Lost in translation? Chirality ...... tructured gel-phase materials.
@en
Lost in translation? Chirality ...... tructured gel-phase materials.
@nl
prefLabel
Lost in translation? Chirality ...... tructured gel-phase materials.
@en
Lost in translation? Chirality ...... tructured gel-phase materials.
@nl
P356
P1476
Lost in translation? Chirality ...... tructured gel-phase materials.
@en
P304
P356
10.1039/B800409A
P577
2009-01-06T00:00:00Z