Molecular printboards: versatile platforms for the creation and positioning of supramolecular assemblies and materials.
about
Labeled protein recognition at a membrane bilayer interface by embedded synthetic receptors.Reversible control over molecular recognition in surface-bound photoswitchable hydrogen-bonding receptors: towards read-write-erase molecular printboards.Regenerative electronic biosensors using supramolecular approaches.Oligonucleotide-Based Systems for Input-Controlled and Non-Covalently Regulated Protein-BindingOrganometallic compounds: an opportunity for chemical biology?A supramolecular sensing platform for phosphate anions and an anthrax biomarker in a microfluidic device.Coarse-grained molecular dynamics simulations of nanopatterning with multivalent inks.Highly efficient cyclosarin degradation mediated by a β-cyclodextrin derivative containing an oxime-derived substituent.Interactions between shape-persistent macromolecules as probed by AFM.A supramolecular approach for preparation of size-controlled nanoparticles.Protein and small molecule recognition properties of deep cavitands in a supported lipid membrane determined by calcination-enhanced SPR spectroscopy.Ratiometric fluorescent detection of an anthrax biomarker at molecular printboards.Supramolecular layer-by-layer assembly of 3D multicomponent nanostructures via multivalent molecular recognition.Anionic deep cavitands enable the adhesion of unmodified proteins at a membrane bilayer.Multivalent alteration of quorum sensing in Staphylococcus aureus.Investigation of monovalent and bivalent enantioselective molecular recognition by electrospray ionization-mass spectrometry and tandem mass spectrometry.Supramolecular velcro for reversible underwater adhesion.Multivalent binding of small guest molecules and proteins to molecular printboards inside microchannels.Nonlinear amplification of a supramolecular complex at a multivalent interface.Reversible Supramolecular Surface Attachment of Enzyme-Polymer Conjugates for the Design of Biocatalytic Filtration Membranes.A supramolecular approach to enzyme immobilization in micro-channels.Spatially Controlled Out-of-Equilibrium Host-Guest System under Electrochemical Control.Supramolecular nanoparticle carriers self-assembled from cyclodextrin- and adamantane-functionalized polyacrylates for tumor-targeted drug deliverySilica nanoparticles functionalised with cation coordination sites and fluorophores for the differential sensing of anions in a quencher displacement assay (QDA)Core-Shell Structures of Oligosaccharide-Functionalized Hyperbranched Poly(ethylene imines)Paramagnetic CEST MRI Contrast AgentsSelective Interaction of Dopamine with the Self-Assembled Fibrillar Network of a Molecular Hydrogel Revealed by STD-NMR
P2860
Q34249800-12D45A54-0A5E-4D3E-BE73-3AE4AD225554Q34912493-2660B375-1155-403F-A0C1-6882DF69624FQ36881492-E6F6F5E0-3797-4279-97AB-A0281CA2FCE5Q37262541-B5A5DB95-7D40-42B0-A3D2-9E3D38E6FD4EQ38012429-FEB55C6A-F385-4922-8C72-63B697130C02Q39674616-A7BA8E67-2B3D-4954-BF9D-604566F28510Q40078821-663B2EB2-7F4A-467D-A66B-9F0AF49487C7Q40213962-B8424266-85CF-4C8D-89A2-54B30B172B97Q41070455-8AA64C85-1E80-478C-BD20-69AC6CDFB287Q41332964-7FCDDF69-DF3A-45A9-8F83-67678051DADDQ42105096-CA348217-17FF-4DB3-B003-0135B555548DQ42971002-E3732EB6-C7D6-4968-AFAD-E07B245E73A3Q43187802-AF046E03-E7F5-4892-8FA5-9FBE04405F3DQ43711546-9EC8D09C-19EF-4198-91CA-FBAD4131CB79Q45926744-C5F910EA-23CE-4CA0-837C-66DA414A455AQ46436609-DBFAC762-4A33-4392-A2EF-15218446ADD1Q46639930-F3972B02-9D39-48A4-BEE7-1D1D5BDEC9E9Q46901324-91E3D9E0-B36D-43FC-894A-36D55945E4C4Q50239238-44CF3623-227B-4011-998C-7CE186C7DF85Q50925160-24D47C89-06A2-46DD-91CF-9830ABCB4A51Q51537978-AAAFE41F-2AB8-4935-9182-6699EEA479AAQ53483054-18D05819-BB36-4D61-A4D5-279837033088Q57348013-0D3B96FE-E28A-49A9-A5AF-2812E3531D91Q57401186-DC78634C-4ACA-4D8B-865F-C4E2734C9CAAQ57777285-0CD2FDEC-959B-4E24-AF62-621F8ABA9A53Q58830282-92CADBD1-44C1-4107-976F-90F08A5B25E2Q59260515-106C0AA7-03DB-4760-999D-EFD378A1877C
P2860
Molecular printboards: versatile platforms for the creation and positioning of supramolecular assemblies and materials.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Molecular printboards: versati ...... ular assemblies and materials.
@ast
Molecular printboards: versati ...... ular assemblies and materials.
@en
type
label
Molecular printboards: versati ...... ular assemblies and materials.
@ast
Molecular printboards: versati ...... ular assemblies and materials.
@en
prefLabel
Molecular printboards: versati ...... ular assemblies and materials.
@ast
Molecular printboards: versati ...... ular assemblies and materials.
@en
P2093
P356
P1476
Molecular printboards: versati ...... ular assemblies and materials.
@en
P2093
David N Reinhoudt
Jurriaan Huskens
Manon J W Ludden
P304
P356
10.1039/B600093M
P577
2006-07-31T00:00:00Z