about
Formation of Well-Defined, Functional Nanotubes via Osmotically Induced Shape Transformation of Biodegradable PolymersomesControlling the morphology of copolymeric vectors for next generation nanomedicine.Morphology Under Control: Engineering Biodegradable Stomatocytes.Hierarchical Self-Assembly of a Copolymer-Stabilized Coacervate Protocell.Interfacial assembly of protein-polymer nano-conjugates into stimulus-responsive biomimetic protocells.Simple photosystem II water oxidation centre analogues in visible light oxygen and H+ generation.Spontaneous structuration in coacervate-based protocells by polyoxometalate-mediated membrane assembly.Erythrocyte Membrane Modified Janus Polymeric Motors for Thrombus Therapy.Development of Morphologically Discrete PEG-PDLLA Nanotubes for Precision NanomedicineStabilization and enhanced reactivity of actinorhodin polyketide synthase minimal complex in polymer–nucleotide coacervate dropletsFatty acid membrane assembly on coacervate microdroplets as a step towards a hybrid protocell modelpH-Induced Transformation of Biodegradable Multilamellar Nanovectors for Enhanced Tumor PenetrationSynthetic Viruslike Particles and Hybrid Constructs Based on Lipopeptide Self-AssemblyTuning the membrane permeability of polymersome nanoreactors developed by aqueous emulsion polymerization-induced self-assemblyPeptide-nucleotide microdroplets as a step towards a membrane-free protocell modelBiodegradable, Drug-Loaded Nanovectors via Direct Hydration as a New Platform for Cancer TherapeuticsWormlike Nanovector with Enhanced Drug Loading Using Blends of Biodegradable Block CopolymersMolecular Programming of Biodegradable Nanoworms via Ionically Induced Morphology Switch toward Asymmetric Therapeutic CarriersMimicking Cellular Compartmentalization in a Hierarchical Protocell through Spontaneous Spatial Organization
P50
Q28831302-F5A4E5F2-EA37-457A-AF38-489AA89909BAQ38750978-77F494A6-C2F1-4406-B56B-EC1A9AE89303Q47138230-C0BE70BF-7569-412E-AD95-980C068D3172Q47144284-C7EB896D-87E4-4577-9C25-AD8005C54904Q47906699-2B632C40-46F0-4668-B37C-38FB7A74CB91Q52842494-80AA4CFF-7262-4600-BBB9-55617CB1BC8FQ53067141-1A0577E6-55A1-4043-8A78-15D1B99F9D88Q55176581-92E30D8E-8C68-4DF1-A0CE-079B185DFE7EQ57287591-8B37B706-9C2C-4018-9A74-4EF03FCA660DQ57986028-19638F5D-B0EA-4551-8A3F-3544E47A4CD0Q59576279-B5CE0978-0FEE-42CF-B15F-0E43AC7477FFQ59809613-F00881C1-33A2-475C-875F-175A0103D2B6Q61828323-2ABBA57B-5A09-4D7B-A276-93FCF83E7CA1Q69460965-51CDBB06-E7DF-47D2-B328-67B43B75C570Q84808193-74F01257-7839-4B1D-84A9-CA2DB4BED90CQ89588666-7E577B62-10DD-4747-BF42-DA7260614973Q90624481-652B68DE-9541-4FC1-A43F-F929B0E6888AQ92399956-98AAD132-E4C0-4889-956E-B5C4ADF9BE28Q93089164-D1EBFE20-E0B0-4C98-B7E5-551BD440765D
P50
description
hulumtues
@sq
researcher
@en
հետազոտող
@hy
name
David S Williams
@en
David S Williams
@es
David S Williams
@sl
David Williams
@nl
type
label
David S Williams
@en
David S Williams
@es
David S Williams
@sl
David Williams
@nl
altLabel
D. Williams
@nl
D.S. Williams
@nl
prefLabel
David S Williams
@en
David S Williams
@es
David S Williams
@sl
David Williams
@nl
P106
P21
P31
P496
0000-0002-8209-6899