Dendronized polymers—building a new bridge from molecules to nanoscopic objects
about
Non-ionic dendronized multiamphiphilic polymers as nanocarriers for biomedical applications.Exploring the Loading Capacity of Generation Six to Eight Dendronized Polymers in Aqueous Solution.Peptide and glycopeptide dendrimers and analogous dendrimeric structures and their biomedical applications.New methodologies in the construction of dendritic materials.Ultrafast energy transfer from rigid, branched side-chains into a conjugated, alternating copolymer.Solvent induced phenomena in a dendronized linear polymerPrecision polymers--modern tools to understand and program macromolecular interactions.Dendritic architectures based on bis-MPA: functional polymeric scaffolds for application-driven research.The dendrimer paradox--high medical expectations but poor clinical translation.Recent advances in click chemistry applied to dendrimer synthesis.Dendronized multifunctional amphiphilic polymers as efficient nanocarriers for biomedical applications.Polyphosphazene Based Star-Branched and Dendritic Molecular Brushes.Synthesis of Dendronized Poly(l-Glutamate) via Azide-Alkyne Click Chemistry.Sequence-controlled polymerization using dendritic macromonomers: precise chain-positioning of bulky functional clusters.Synthetic regimes due to packing constraints in dendritic molecules confirmed by labelling experiments.Occupation times on a comb with ramified teeth.Phosphorylated dendronized poly(amido amine)s as protein analogues for directing hydroxylapatite biomineralization.Shielding effects in spacious macromolecules: a case study with dendronized polymers.New ROMP Synthesis of Ferrocenyl Dendronized Polymers.Two-particle problem in comblike structures.Crosslinked dendronized polyols as a general approach to brighter and more stable fluorophores.Statistical properties of linear-hyperbranched graft copolymers prepared via "hypergrafting" of AB(m) monomers from linear B-functional core chains: A molecular dynamics simulation.Diffusion and Subdiffusion of Interacting Particles on Comblike Structures.Functional supramolecular assemblies derived from dendritic building blocks.Dendronized supramolecular polymers.Combining ring-opening metathesis polymerization and thiol-ene coupling chemistries: facile access to novel functional linear and nonlinear macromolecules.Mesoscopic description of random walks on combsNon-covalently connected micelles (NCCMs): the origins and development of a new conceptHyperbranched aliphatic polyether polyolsPersistence length of dendronized polymers: the self-consistent field theorySynthesis of hydroxypropyl cellulose derivatives modified with amphiphilic diblock copolymer side-chains for the slow release of volatile moleculesDendronized Polymers: An Approach to Single Molecular ObjectsInteractions in dendronized polymers: intramolecular dominates intermolecularComputer simulation of dendronized polymers: organization and characterization at the atomistic levelFormation of double helical and filamentous structures in models of physical and chemical gelsFrom atomistic simulation to the dynamics, structure and helical network formation of dendronized polymers: The Janus chain modelSolvatochromism of dye-labeled dendronized polymers of generation numbers 1-4: comparison to dendrimersHydrodynamic and Molecular Study of Poly{4-[4-(hexyloxy)phenyl]ethynylphenyl methacrylate} in Dilute Solutions and Conformational Peculiarities of Brush-Like MacromoleculesA dendronised polymer for bulk heterojunction solar cellsSynthesis of amphiphilic dendronized polymers to study their self-assembly and transport behavior
P2860
Q30580880-702095B9-73D2-489B-8D50-7603D2AE701EQ31106262-68970C8D-95F5-4B0F-ACCC-056F285E678EQ33740696-7C18788A-D582-4EBD-91EA-F4CF0ABE256DQ34929895-FC2CCB9A-96E6-4AE7-A5EE-F47782E12844Q35558973-F7964ED6-B94A-47E3-ABEA-67E91C074CA5Q37316077-4664D640-E79E-402B-9D21-9652A2806BD3Q37857070-60D7EA5C-39C0-4F19-8D38-827EE5F4D64DQ38102881-34F41557-35B3-4B51-A66F-3746FEA1227DQ38478308-875ECE61-023B-420A-8D58-F29661E47241Q38501503-4BF7464E-EF9C-48B3-9B85-7D396C35286BQ38940178-8F7D4BAE-A1BB-4194-9B12-7C904F23E7A7Q39878543-7C7C057B-9110-490A-92BA-9B57D8E6C3AAQ40967164-4A16AF26-8184-42E5-B11B-3161E0BEA5EAQ43526698-F8B89E1C-5269-4AF1-A5CC-54F2F4285E74Q43545869-9AF439CD-71B8-472F-8991-6786DC2655D2Q45421600-B7F15245-077D-48FC-AD27-C0925477B724Q46284898-24CDF5D8-2AA9-4B11-89E4-CD1FEDDB99BAQ46515018-905555F3-6E86-4E73-9282-CEDBCD2669AEQ47763324-92AB45EC-3229-4B98-94A4-68A618351280Q48678343-88CA4D45-0B09-48CF-B821-55F36651B66FQ50883201-5C6B619E-F2B6-4CB9-819E-14A3384D2E97Q50896325-420D9276-97C9-4673-9FF8-6304AD706502Q53254999-9A0FF948-19B0-4152-A826-85DCE0D1FB05Q53413898-2A9BC8F0-01C7-467B-999C-D45204896F30Q53500873-EEC46868-EF1D-4B0D-ACD4-D518FBDE1D5DQ53637719-D268E355-120D-471E-953D-14FF04311175Q57029613-58E09CD4-8C9D-4D12-87D3-EDEDD4734C9EQ57347771-01B5EBE4-8011-4F4B-8BB0-B744906CC145Q57352762-EAD8B5AF-12EA-4DB9-BE42-6A92A0039601Q57366716-69D4DD9B-C283-4116-9388-8B6DD2B18C53Q57376482-93F1A14A-55A3-4E96-A1D4-87E3C40D47EFQ57517654-86DDD913-F7FF-4280-9E02-DCCC072E3514Q58051753-C46E191F-99A0-43BB-A847-BC5E9039F7A8Q58051788-FDFCB0D8-3EFB-409B-891B-1494B2BB5D97Q58051935-4E48D301-B5D8-475D-B524-0AC42CFDDA75Q58051967-5816FC45-F02C-4A88-AB86-66902C233A03Q58224162-A32FA247-DF49-4384-94DD-232F3B4878A3Q58385151-7083B99F-31EB-42E4-A869-2B46409A97B4Q58452141-4D9CBC98-F5D4-4E3B-BCD6-BD977EBC484CQ58805824-BEFC54B0-E8E6-49E1-BBC3-2BB29ED53DBF
P2860
Dendronized polymers—building a new bridge from molecules to nanoscopic objects
description
im März 2005 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в березні 2005
@uk
name
Dendronized polymers—building a new bridge from molecules to nanoscopic objects
@en
Dendronized polymers—building a new bridge from molecules to nanoscopic objects
@nl
type
label
Dendronized polymers—building a new bridge from molecules to nanoscopic objects
@en
Dendronized polymers—building a new bridge from molecules to nanoscopic objects
@nl
prefLabel
Dendronized polymers—building a new bridge from molecules to nanoscopic objects
@en
Dendronized polymers—building a new bridge from molecules to nanoscopic objects
@nl
P1476
Dendronized polymers—building a new bridge from molecules to nanoscopic objects
@en
P2093
Holger Frauenrath
P304
P356
10.1016/J.PROGPOLYMSCI.2005.01.011
P407
P577
2005-03-01T00:00:00Z