about
Enzymatically triggered self-assembly of block copolymers.Enhanced bioactivity of internally functionalized cationic dendrimers with PEG coresMultifunctional trackable dendritic scaffolds and delivery agents.Free radical polymers with tunable and selective bio- and chemical degradability.Modular Synthetic Approach for Adjusting the Disassembly Rates of Enzyme-Responsive Polymeric Micelles.Molecular Precision and Enzymatic Degradation: From Readily to Undegradable Polymeric Micelles by Minor Structural Changes.Prodrug activation gated by a molecular "OR" logic trigger.Facile access to internally functionalized dendrimers through efficient and orthogonal click reactions.A microfluidic chip containing multiple 3D nanofibrous scaffolds for culturing human pluripotent stem cells.Micellar Stability in Biological Media Dictates Internalization in Living Cells.Supramolecular Translation of Enzymatically Triggered Disassembly of Micelles into Tunable Fluorescent Responses.Reversible Dimerization of Polymeric Amphiphiles Acts as a Molecular Switch of Enzymatic Degradability.Encapsulation and covalent binding of molecular payload in enzymatically activated micellar nanocarriers.Receiver-amplifier, self-immolative dendritic device.The effect of photoisomerization on the enzymatic hydrolysis of polymeric micelles bearing photo-responsive azobenzene groups at their cores.Self-immolative dendrimersSelf-immolative dendrimer biodegradability by multi-enzymatic triggeringEnzyme-responsive amphiphilic PEG-dendron hybrids and their assembly into smart micellar nanocarriersTuning the molecular weight of polymeric amphiphiles as a tool to access micelles with a wide range of enzymatic degradation rates
P50
Q33501301-0EDA94AF-9EF6-46A5-9C31-A43D1423E27BQ34472589-8305471F-0690-439D-B5B2-595272A7DB23Q36377061-8F731EC4-215B-4CF3-A90C-2B6573164B4BQ37365934-C251A33F-9107-42C1-A4C0-540A239D3EB4Q38925074-908026C9-C7DC-4B0F-8E53-D4F8B26633ABQ39089946-4EDAEBAE-5F70-44F4-AEDD-6C1DEC4E1FE5Q40412417-8DF4703D-5419-4590-AA30-71136D5092D6Q43159689-BA43D3B2-CEA1-4F14-BA47-6005F1C55147Q47554350-B9FDA42C-8B25-4CCA-97DF-7D76D0182DC6Q47596143-05DCE0D3-6365-4013-AA7A-64E4EFED2C4AQ47615185-E83FEB07-A10B-4074-90D0-3AFA1D3C938DQ48146239-9AA7C0EE-4D97-45E2-9528-5EE58FD599D9Q51016059-E6548AD4-A645-4DEA-97D1-68B7D37FDC76Q51110738-B55C87CE-FF7A-4443-AA34-933C48599E2FQ52874248-1BC7756F-52D7-4628-BA64-F9B274C4F96EQ79103574-BBE822EF-8FD7-4C02-B5F5-435D4CF9B928Q80360007-81B9A6E1-6ECC-4F92-B45F-C0715A85D12DQ87356651-AA6A3C3C-7ECE-48A1-B094-EDBF91A2FA04Q88723074-419F4004-923B-4A48-BE77-56EB7C9071F6
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Roey J Amir
@fr
Roey J Amir
@nl
Roey J Amir
@sl
Roey J. Amir
@en
Roey J. Amir
@es
type
label
Roey J Amir
@fr
Roey J Amir
@nl
Roey J Amir
@sl
Roey J. Amir
@en
Roey J. Amir
@es
prefLabel
Roey J Amir
@fr
Roey J Amir
@nl
Roey J Amir
@sl
Roey J. Amir
@en
Roey J. Amir
@es
P1053
N-5041-2015
P106
P2038
P21
P31
P3829
P496
0000-0002-8502-3302