about
My maize and blue brick road to physical organic chemistry in materialsThe Halogen BondSupramolecular phase-selective gelation by peptides bearing side-chain azobenzenes: effect of ultrasound and potential for dye removal and oil spill remediationImaging enzyme-triggered self-assembly of small molecules inside live cellsPyrene-based fluorescent ambidextrous gelators: scaffolds for mechanically robust SWNT-gel nanocomposites.Supramolecular Hydrogelators and Hydrogels: From Soft Matter to Molecular Biomaterials.Synthesis and structural investigations of N-alkylated beta-peptidosulfonamide-peptide hybrids of the amyloidogenic amylin(20-29) sequence: Implications of supramolecular folding for the design of peptide-based bionanomaterials.Exploiting molecular self-assembly: from urea-based organocatalysts to multifunctional supramolecular gels.H-aggregates of oligophenyleneethynylene (OPE)-BODIPY systems in water: guest size-dependent encapsulation mechanism and co-aggregate morphology.MPTTF-containing tripeptide-based organogels: receptor for 2,4,6-trinitrophenol and multiple stimuli-responsive properties.Two-component hydrogels comprising fatty acids and amines: structure, properties, and application as a template for the synthesis of metal nanoparticles.Supramolecular hydrogels made of basic biological building blocks.Supramolecular synthons in designing low molecular mass gelling agents: L-amino acid methyl ester cinnamate salts and their anti-solvent-induced instant gelation.Expanding the gelation properties of valine-based 3,5-diaminobenzoate organogelators with N-alkylurea functionalities.Hydrodynamic dispersion in [Formula: see text] -lactoglobulin gels measured by PGSE NMR.Erratum to: Hydrodynamic dispersion in β-lactoglobulin gels measured by PGSE NMR.Formation of gels in the presence of metal ions.Spontaneous gelation of a novel histamine H4 receptor antagonist in aqueous solution.Organo- and hydrogelators based on luminescent monocationic terpyridyl platinum(II) complexes with biphenylacetylide ligands.Organogel-hydrogel transformation by simple removal or inclusion of N-Boc-protection.Self-assembly of a dendron-attached tetrathiafulvalene: gel formation and modulation in the presence of chloranil and metal ions.pH-Tunable hydrogelators for water purification: structural optimisation and evaluation.Synthesis of fluorinated oxadiazoles with gelation and oxygen storage ability.Insights into the mechanical properties of a silicone oil gel with a 'latent' gelator, 1-octadecylamine, and CO(2) as an 'activator'.Pyridinium based amphiphilic hydrogelators as potential antibacterial agentsSupramolecular assemblies by charge-transfer interactions between donor and acceptor chromophores.Diaqua-bis-(1,10-phenanthroline-κN,N')manganese(II) sulfate hexa-hydrateExceptionally small supramolecular hydrogelators based on aromatic-aromatic interactions.Multistimuli-responsive supramolecular organogels formed by low-molecular-weight peptides bearing side-chain azobenzene moieties.Fluorescent sensing of fluoride in cellular system.Synthesis and characterization of pH responsive D-glucosamine based molecular gelators.Variable gelation time and stiffness of low-molecular-weight hydrogels through catalytic control over self-assembly.An "ingredients" approach to functional self-synthesizing materials: a metal-ion-selective, multi-responsive, self-assembled hydrogel.Luminescent organogels based on triphenylamine functionalized β-diketones and their difluoroboron complexes.Gelation Behavior of 5-Chloro-8-hydroxyquinoline, an Antituberculosis Agent in Aqueous Alcohol Solutions.A new class of organogelators based on triphenylmethyl derivatives of primary alcohols: hydrophobic interactions alone can mediate gelation.Nanostructure-templated control of drug release from peptide amphiphile nanofiber gelsOrganogels as scaffolds for excitation energy transfer and light harvesting.Supramolecular Gel-Templated In Situ Synthesis and Assembly of CdS Quantum Dots Gels.Self-delivery multifunctional anti-HIV hydrogels for sustained release.
P2860
Q26765739-78B01AA3-CAA2-4BD7-8480-644F0DF269CDQ28077775-B967EA57-9237-4FFC-B12F-134BE6CA15D6Q30409163-14BF84D8-8FD1-48CD-A732-9575079C341FQ30559697-29A9234F-2C63-406B-9930-E9C297CAE8AFQ30715474-87B123E2-6222-4B60-A37A-BA510CEDDA5FQ30781853-77035D76-5535-4640-8720-2DEB69AD52F9Q30824576-7862FDBF-C075-46DE-AE9C-55AD688F3A0CQ30833423-7E36529E-B1D1-473B-B473-8B2C67F4A63AQ30837432-29CB4EEC-50C0-42A6-85B9-AF74D4EE8B20Q31022699-1891BBA1-21B6-4D87-9228-5C426405CAF5Q31158269-F8C0B750-D65C-4FF4-9AC5-1C64991A1FD8Q33625101-39C9E7E8-E5F4-4EFE-A06F-658E2B70C8CBQ33725856-2F5047F9-919F-41ED-A46D-30085A314B6AQ33749869-72E0217E-6E06-4EBA-B40F-6D04F9028D8AQ33832389-FFBD791B-4852-492B-B6B8-C6543F52C010Q33856022-5F000C3E-7352-4C45-8BDE-DEB08CB4873DQ33871071-55AFD5A4-F527-445B-8877-9DC3D927232EQ33921527-ED907699-B014-493D-BD19-61E0369C46D4Q34013174-BCE68368-DA8D-446A-ACE4-C95E1163BF8AQ34079918-CA709CF4-D1A3-42F8-BBFB-2A8C7FE312A2Q34133991-9221095A-27ED-421C-899F-2C2026F808B4Q34142776-1703A3C3-B7F2-4588-ADB7-F64E98F7DB06Q34186609-30300E5D-95CB-481C-912F-E5E6B8D95545Q34312241-EB417CAB-06EC-4337-9572-A59ED39C3D98Q34312275-65789039-BFAA-4E39-8413-A0AAAB7A2BC1Q34407095-2A15E28B-DFBD-42B7-8AA6-9F4254CE7E3FQ34435470-41E0E25F-DEF5-460D-A2F7-A7D79F9F676EQ34712029-3049987F-9417-4458-9D14-FC47672E8A2CQ34737036-011A3551-E543-4498-B4DA-D3A2CA11F797Q34785240-4BC822C1-1529-4177-BF05-E03F816B7294Q35030897-7DFD527E-092C-469D-8607-63EB236B6073Q35133307-831ECA7C-33A8-4B1D-A322-0AD1D04A1ABEQ35353165-5D90AAF0-E638-48DB-B12E-80DFD9B95FC2Q35549013-C9010AAF-B609-4A4D-A59E-76DC1885FF56Q35974411-E086ED6F-8E88-47D2-AF4D-D50DBDC706DFQ36287957-9CD984D5-BA0E-4367-BB2F-0CCC521C9019Q36366440-667BD41E-C28D-4D55-BF2C-6147985D3AB7Q37057866-3D12F2C1-75A3-4339-B10C-53FE8E883D80Q37586007-FE28346B-7ECF-418A-BB93-4DC6C5C92526Q37601822-B5D92DDA-A9C2-43ED-ABC3-23973D5454DF
P2860
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Supramolecular gels: functions and uses.
@ast
Supramolecular gels: functions and uses.
@en
type
label
Supramolecular gels: functions and uses.
@ast
Supramolecular gels: functions and uses.
@en
prefLabel
Supramolecular gels: functions and uses.
@ast
Supramolecular gels: functions and uses.
@en
P356
P1476
Supramolecular gels: functions and uses.
@en
P2093
Neralagatta M Sangeetha
Uday Maitra
P304
P356
10.1039/B417081B
P577
2005-08-23T00:00:00Z