Poly(N-isopropylacrylamide) Phase Diagrams: Fifty Years of Research.
about
PLGA-PNIPAM Microspheres Loaded with the Gastrointestinal Nutrient NaB Ameliorate Cardiac Dysfunction by Activating Sirt3 in Acute Myocardial InfarctionNew Opportunities and Challenges of Smart Polymers in Post-Translational Modification Proteomics.On the formation of inclusion complexes at the solid/liquid interface of anchored temperature-responsive PNIPAAM diblock copolymers with γ-cyclodextrinAmphiphilic Polymer-Based Fluorescent Probe for Enantioselective Recognition of Amino Acids in Immiscible Water and Organic Phases.Stimulated Transitions of Directed Nonequilibrium Self-Assemblies.Bio-Inspired Design and Fabrication of Micro/Nano-Brush Dual Structural Surfaces for Switchable Oil Adhesion and Antifouling.Bioinspired graphene membrane with temperature tunable channels for water gating and molecular separation.Conformational collapse of spherical poly(N-isopropylacrylamide) brushes under the constraint of bound micelles.Tunable Dual-Thermoresponsive Core-Shell Nanogels Exhibiting UCST and LCST Behavior.Optical tracking of relaxation dynamics in semi-dilute hydroxypropylcellulose solutions as a precise phase transition probe.Intracellular temperature measurements with fluorescent polymeric thermometers.Sustained Drug Release by Thermoresponsive Sol-Gel Hybrid Hydrogels of Poly(N-Isopropylacrylamide-co-3-(Trimethoxysilyl)Propyl Methacrylate) Copolymers.All-Aqueous Nanoprecipitation: Spontaneous Formation of Hydrogen-Bonded Nanoparticles and Nanocapsules Mediated by Phase Separation of Poly(N-Isopropylacrylamide).Pick up, move and release of nanoparticles utilizing co-non-solvency of PNIPAM brushes.Hybrid mesoporous silica nanocarriers with thermovalve-regulated controlled release.Poroelastic indentation of mechanically confined hydrogel layers.Thermodynamic Parameters of Temperature-Induced Phase Transition for Brushes onto Nanoparticles: Hydrophilic versus Hydrophobic End-Groups Functionalization.Thermoresponsive Toughening with Crack Bifurcation in Phase-Separated Hydrogels under Isochoric Conditions.A fluorescent acrylamide-type monomer bearing an environment-sensitive methoxybenzocoumarin structure for the development of functional polymeric sensors.Polysulfobetaines in Aqueous Solution and in Thin Film Geometry.Time-resolved structural evolution during the collapse of responsive hydrogels: The microgel-to-particle transition.On the molecular origin of the cooperative coil-to-globule transition of poly(N-isopropylacrylamide) in water.The Dependence of the Cloud Point, Clearing Point, and Hysteresis of Poly(N-isopropylacrylamide) on Experimental Conditions: The Need for Standardization of Thermoresponsive Transition DeterminationsRAFT synthesis of triply responsive poly[N-[2-(dialkylamino)ethyl]acrylamide]s and their N-substitute determined responseSynthesis of poly(N-isopropylacrylamide) by distillation precipitation polymerization and quantitative grafting on mesoporous silicaTemperature-Induced Phase Transition Characterization of Responsive Polymer Brushes Grafted onto NanoparticlesUnexpected Large Depression of VPTT of a PNIPAM Microgel by Low Concentration of PVAEffect of chain architecture on the phase transition of star and cyclic poly(N-isopropylacrylamide) in waterMixed micelles of oppositely charged poly(N -isopropylacrylamide) diblock copolymersTemperature response of aqueous solutions of pyrene end-labeled poly(N -isopropylacrylamide)s probed by steady-state and time-resolved fluorescenceSynthesis and thermoresponsive properties of OEGylated polypeptide with a LCST at body temperature in water and with a UCST in alcohol or ethanol/water solvent mixtureAffinity-based thermoresponsive precipitation of proteins modified with polymer-binding peptidesN-Ester-substituted polyacrylamides with a tunable lower critical solution temperature (LCST): the N-ester-substitute dependent thermoresponseAn efficient route to synthesize thermoresponsive molecular bottlebrushes of poly[o-aminobenzyl alcohol-graft-poly(N-isopropylacrylamide)]Fabrication of a thermo-responsive membrane with cross-linked smart gates via a ‘grafting-to’ methodThermoresponsive polymers with lower critical solution temperature: from fundamental aspects and measuring techniques to recommended turbidimetry conditionsA new thermoresponsive polymer of poly(N-acryloylsarcosine methyl ester) with a tunable LCSTNew endeavours involving the cooperative behaviour of TMAO and urea towards the globular state of poly(N-isopropylacrylamide)Low concentration thermoresponsive hydrogels from readily accessible triblock copolymersEffect of the zwitterion structure on the thermo-responsive behaviour of poly(sulfobetaine methacrylates)
P2860
Q37505129-C372AEF2-7BC4-4E1D-AD45-C3D713A845D1Q39098842-2E7AB1F4-73D7-467E-BC26-F6550B51D882Q41075248-D60C8566-190A-47CC-91C5-8C0A7FC3883DQ45070999-163443BB-B495-4E76-8DDA-EE8F37482B3AQ46287994-1A9F2B83-C706-4991-825A-FD9B43637712Q46503481-D7843729-33BB-44C5-9622-BB0F4468D55DQ47144054-B544E4F6-BD50-4BEC-A7A8-785B73DF9191Q47334779-8891D7D5-8C52-46B3-8E7B-70CBE09C8020Q47619781-B19BF41D-BD2E-4569-91BB-BD0325AB8139Q47888432-E586C240-B65E-4F45-9221-1398C00BB9C4Q47955732-B33175EA-EB87-4649-8480-0AE6C4E01B86Q47983059-B14D0525-12DA-4FB3-903F-16F209461897Q48026753-94A4232C-9AE2-4C94-ACEA-AC74D90E1A65Q48049865-C2BB7526-96D5-45A0-9E9D-358CA0E65446Q50237177-BA4D6CD5-16E4-4C42-BE95-BACA672C9F7FQ51142827-3CDBEBF1-D0F8-41B1-9CC9-407C2CA8A70BQ53099298-D6B50547-D531-4F3E-9013-6BD6203C7BB5Q54352729-CFCC8910-53C8-4089-B79F-0BD8E01BA7B7Q54429628-BFFF82FB-0D0D-44EB-BEF7-B387ACB11A30Q55007239-8E5863DC-8FAE-4608-AA34-F83139D8AB02Q55096446-5AE04AE2-A85A-4B15-A7C2-E52E55BAA982Q55311585-13E5426E-DA13-4E66-9E01-3A83D6D95F8BQ57315274-2BCED03A-F2D3-4A45-91B4-0BD1252B289AQ57315283-FC764DE4-C9EB-4F62-AC06-7DEEC176C9B6Q57342219-98A1B1D2-E4CD-4EFE-9D80-A832340AFED1Q57343116-C6B085AF-E7BB-4D68-B648-22866E94BE62Q57343160-60140563-C750-42E2-85DF-8DFD5B33D7DDQ57345305-60934CA8-02EF-416D-B4AF-7FB45BF98369Q57345324-6698347E-93A6-48BF-90A0-815E781BCFEBQ57345345-E19A030E-3FBE-449F-81CF-671CB07654DEQ57353260-C4EE1F91-A09C-4779-BC55-EA67CF6B6A6CQ57366912-8796C00D-D380-42E7-93C7-A6073B217801Q57367000-69FDE930-0C2C-4308-AFD2-159A9E6A7F93Q57367139-6AF8D484-C046-42DD-A965-CC174825B5BFQ57367210-66AD0A6F-7661-4AA1-92ED-B2230C3DA17DQ57367656-E5476A01-97B7-47C0-A212-D258E4DAC8BDQ57367771-8981E65A-FD91-48B6-AB09-347A82042C3EQ57368044-CA6BB33F-3D39-4F1F-BF2B-8BA08E7B05AAQ57369055-0F52D2C3-6FD6-4428-B546-D219D6404E59Q57369082-DB63546F-DB63-4A94-B309-02EB99F3DB05
P2860
Poly(N-isopropylacrylamide) Phase Diagrams: Fifty Years of Research.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年学术文章
@wuu
2015年学术文章
@zh-cn
2015年学术文章
@zh-hans
2015年学术文章
@zh-my
2015年学术文章
@zh-sg
2015年學術文章
@yue
2015年學術文章
@zh
2015年學術文章
@zh-hant
name
Poly(N-isopropylacrylamide) Phase Diagrams: Fifty Years of Research.
@en
type
label
Poly(N-isopropylacrylamide) Phase Diagrams: Fifty Years of Research.
@en
prefLabel
Poly(N-isopropylacrylamide) Phase Diagrams: Fifty Years of Research.
@en
P2860
P356
P1476
Poly(N-isopropylacrylamide) Phase Diagrams: Fifty Years of Research.
@en
P2093
Avraham Halperin
Françoise M Winnik
P2860
P304
15342-15367
P356
10.1002/ANIE.201506663
P407
P577
2015-11-27T00:00:00Z