| 000 | 13493cam a2200409 i 4500 | ||
|---|---|---|---|
| 001 | 23207208 | ||
| 003 | OSt | ||
| 005 | 20250320120908.0 | ||
| 008 | 230628t20182018njua b 001 0 eng d | ||
| 010 | _a 2023277470 | ||
| 015 |
_aGBB8B2423 _2bnb |
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| 016 | 7 |
_a018915024 _2Uk |
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| 020 |
_a9781119157786 _q(hbk.) |
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| 035 | _a(OCoLC)on1018029097 | ||
| 040 |
_aYDX _beng _erda _cJKRC _dYDX _dBDX _dUKMGB _dORE _dOCLCQ _dOCLCO _dPAU _dDLC |
||
| 082 | 0 | 4 |
_a668.9 _223 _bKHU.V |
| 245 | 0 | 0 |
_aTemperature-responsive polymers : _bchemistry, properties and applications / _ced by Vitaliy V. Khutoryanskiy, and Theoni K. Georgiou. _hEnglish. |
| 250 | _a1st ed. | ||
| 260 |
_aHoboken, NJ : _bWiley, _c2018. |
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| 264 | 4 | _c©2018 | |
| 300 |
_axxii, 384 p. _billustrations ; _c25 cm |
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| 336 |
_atext _btxt _2rdacontent |
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| 337 |
_aunmediated _bn _2rdamedia |
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| 338 |
_avolume _bnc _2rdacarrier |
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| 504 | _aIncludes bibliographical references and index. | ||
| 505 | 0 | 0 |
_gPart I _tChemistry _gp. 1 -- _g1 _tPoly(N-isopropylacrylamide): Physicochemical Properties and Biomedical Applications _gp. 3 / _rMarzieh Najafi and Erik Hebels and Wim F. Hennink and Tina Vermanden -- _g1.2 _tPNIPAM as Thermosensitive Polymer _gp. 4 -- _g1.3 _tPhysical Properties of PNIPAM _gp. 5 -- _g1.3.1 _tPhase Behavior of PNIPAM in Water/Alcohol Mixtures _gp. 5 -- _g1.3.2 _tEffect of Concentration and Molecular Weight of PNIPAM on LCST _gp. 5 -- _g1.3.3 _tEffect of Surfactants on LCST _gp. 7 -- _g1.3.4 _tEffect of Salts on LCST _gp. 7 -- _g1.4 _tCommon Methods for Polymerization of NIPAM _gp. 8 -- _g1.4.1 _tFree Radical Polymerization _gp. 8 -- _g1.4.2 _tLiving Radical Polymerization _gp. 9 -- _g1.4.2.1 _tATRP of NIPAM _gp. 10 -- _g1.4.2.2 _tRAFT Polymerization of NIPAM _gp. 11 -- _g1.5 _tDual Sensitive Systems _gp. 12 -- _g1.5.1 _tpH and Thermosensitive Systems _gp. 12 -- _g1.5.2 _tReduction-Sensitive and Thermosensitive Systems _gp. 13 -- _g1.5.3 _tHybrid-Thermosensitive Materials _gp. 13 -- _g1.6 _tBioconjugation of PNIPAM _gp. 15 -- _g1.6.1 _tProtein-PNIPAIVI Conjugates _gp. 16 -- _g1.6.2 _tPeptide-PNIPAM Conjugates _gp. 18 -- _g1.6.3 _tNucleic Acid-PNIPAM Conjugates _gp. 21 -- _g1.7 _tLiposome Surface Modification with PNIPAM _gp. 21 -- _g1.8 _tApplications of PNIPAM in Cell Culture _gp. 22 -- _g1.9 _tCrosslinking Methods for Polymers _gp. 23 -- _g1.9.1 _tCrosslinking in PNIPAM-Based Hydrogels _gp. 23 -- _g1.9.2 _tCrosslinking of PNIPAM-Based Micelles _gp. 26 -- _g1.9.2.1 _tShell Crosslinked (SCL) _gp. 26 -- _g1.9.2.2 _tCore Crosslinked (CCL) _gp. 27 -- _g1.10 _tConclusion and Outlook of Applications of PNIPAM _gp. 27 -- _g2 _tThermoresponsive Multiblock Copolymers: Chemistry, Properties and Applications _gp. 35 / _rAnna P. Constantinou and Theoni K. Georgiou -- _g2.2 _tChemistry of Thermoresponsive Block-based Copolymers _gp. 35 -- _g2.3 _tArchitecture, Number of Blocks and Block Sequence _gp. 38 -- _g2.3.1 _tWhy the Block Structure? _gp. 38 -- _g2.3.2 _tTriblock Copolymers _gp. 39 -- _g2.3.2.1 _tMicelles _gp. 40 -- _g2.3.2.2 _tGels _gp. 45 -- _g2.3.2.3 _tFilms and Membranes _gp. 52 -- _g2.3.3 _tTetrablock Copolymers _gp. 53 -- _g2.3.4 _tPentablock Copolymers _gp. 54 -- _g2.3.4.1 _tPluronic® Based _gp. 54 -- _g2.3.4.2 _tNon-pluronic Based _gp. 56 -- _g2.3.5 _tMultiblock Copolymers _gp. 57 -- _g3 _tStar-shaped Poly(2-alkyl-2-oxazolines): Synthesis and Properties _gp. 67 / _rAndrey V. Tenkovtsev and Alina I. Amirova and Alexander P. Filippov -- _g3.2 _tSynthesis of Star-shaped Poly(2-alkyl-2-oxazolines) _gp. 68 -- _g3.3 _tProperties of Star-shaped Poly(2-alkyl-2-oxazolines) _gp. 78 -- _g4 _tPoly(N-vinylcaprolactarn): From Polymer Synthesis to Smart Self-assemblies _gp. 93 / _rFei Liu and Veronika Korlovskaya and Eugenia Kharlampieva -- _g4.2 _tSynthesis of PVCL Homo- and Copolymers _gp. 93 -- _g4.2.1 _tSynthesis of Statistical PVCL Copolymers _gp. 95 -- _g4.2.2 _tSynthesis of PVCL Block Copolymers _gp. 97 -- _g4.2.3 _tOther PVCL-based Copolymers _gp. 99 -- _g4.3 _tProperties of PVCL in Aqueous Solutions _gp. 99 -- _g4.3.1 _tDependence of the LCST of PVCL on Molecular Weight and Polymer Concentration _gp. 99 -- _g4.3.2 _tLCST Dependence on Chemical Composition _gp. 100 -- _g4.3.3 _tThe Effect of Salt on the PVCL Temperature Response _gp. 102 -- _g4.3.4 _tThe Effect of Solvent on PVCL Temperature Response _gp. 102 -- _g4.4 _tAssembly of PVCL-based Polymers in Solution _gp. 102 -- _g4.4.1 _tPVCL Interpolymer Complexes _gp. 102 -- _g4.4.2 _tPVCL-based Micelles _gp. 103 -- _g4.4.3 _tSelf-assembly of PVCL-based Copolymers into Polymersomes _gp. 105 -- _g4.5 _tTemplated Assemblies of PVCL Polymers _gp. 107 -- _g4.5.1 _tHydrogen-bonded PVCL-based Multilayers _gp. 107 -- _g4.5.1.1 _tpH-sensitive Hydrogen-bonded PVCL Multilayers _gp. 107 -- _g4.5.1.2 _tEnzymatically Sensitive Hydrogen-bonded PVCL Multilayers _gp. 108 -- _g4.5.2 _tMultilayer Hydrogels of PVCL _gp. 110 -- _g4.6 _tOutlook and Perspectives _gp. 113 -- _g5 _tSodium Alginate Grafted with Poly(N-isopropylacrylarnide) _gp. 121 / _rCatalina N. Cheaburu-Yilmaz and Cornelia Vasile and Oana-Nicoleta Ciocoiu and Georgios Staikos -- _g5.1 _tAlginic Acid _gp. 121 -- _g5.1.1 _tMonomeric and Polymeric Structure of Alginates _gp. 121 -- _g5.2 _tPoly(N-Isopropylacrylamide) and Thermoresponsive Properties _gp. 122 -- _g5.3 _tSynthesis and Characterization of Alginate-graft-PNIPAM Copolymers _gp. 123 -- _g5.4 _tSolution Properties _gp. 124 -- _g5.4.1 _tTurbidimetry _gp. 124 -- _g5.4.2 _tFluorescence _gp. 124 -- _g5.4.3 _tRheology _gp. 126 -- _g5.4.4 _tDegradability _gp. 130 -- _g5.4.5 _tBiocompatibility _gp. 131 -- _g5.4.5.1 _tCytotoxicity _gp. 132 -- _g5.4.5.2 _tPharmaceutical and Medical Applications _gp. 135 -- _g6 _tMulti-stimuli-responsive Polymers Based on Calix[4]arenes and Dibenzo-18-crown-6-ethers _gp. 145 / _rSzymon Wiktorowicz and Heikki Tenhu and Vladimir Aseyev -- _g6.2 _tSingle-stimuli-responsive Polymers _gp. 146 -- _g6.2.1 _tThermo-responsive Polymers in Polar Media _gp. 147 -- _g6.2.2 _tpH-responsive Polymers _gp. 148 -- _g6.2.3 _tPhotoresponsive Polymers _gp. 148 -- _g6.2.3 _tOther Single-stimuli-responsive Polymers _gp. 150 -- _g6.3 _tMulti-stimuli-responsive Polymers _gp. 150 -- _g6.4 _tPoly(azocalix[4]arene)s and Poly(azodibenzo-18-crown-6-ether)s _gp. 151 -- _g6.4.1 _tCalixarenes _gp. 151 -- _g6.4.2 _tCrown Ethers _gp. 152 -- _g6.4.3 _tStructural Units of Poly(azocalix[4]arene)s _gp. 153 -- _g6.4.4 _tStructural Units of Poly(azodibenzo-18-crown-6-ether)s _gp. 154 -- _g6.5 _tPhotoisomerization _gp. 154 -- _g6.6 _tHost-guest Interactions _gp. 156 -- _g6.7 _tThermo-responsiveness _gp. 158 -- _g6.7.1 _tLCST: Tegylated Poly(azocalix[4]arene)s in Water _gp. 158 -- _g6.7.2 _tUCST: Tegylated Poly(azocalix[4]arene)s in Alcohols _gp. 159 -- _g6.7.3 _tUCST and Photoisomerization of Tegylated Poly(azocalix[4]arene)s _gp. 160 -- _g6.7.4 _tUCST and Poly(azodibenzo-18-crown-6-ether)s _gp. 161 -- _g6.7.5 _tUCST and Photoisomerization of Poly(azodibenzo-18-crown-6-ether)s _gp. 162 -- _g6.7.6 _tUCST in Water-alcohol Mixtures _gp. 162 -- _g6.8 _tSolvatochromism and pH Sensitivity _gp. 163 -- _gPart II _tCharacterization of Temperature-responsive Polymers _gp. 175 -- _g7 _tSmall-Angle X-ray and Neutron Scattering of Temperature-Responsive Polymers in Solutions _gp. 177 / _rSergey K. Filippov and Martin Hruby and Petr Stepanek -- _g7.2 _tTemperature-responsive Homopolymers _gp. 179 -- _g7.3 _tHydrophobically Modified Polymers _gp. 182 -- _g7.4 _tCross-Linked Temperature-Sensitive Polymers and Gels _gp. 184 -- _g7.5 _tTemperature-Responsive Block Copolymers _gp. 185 -- _g7.6 _tHybrid Nanoparticles _gp. 187 -- _g7.7 _tGradient Temperature-Responsive Polymers _gp. 188 -- _g7.8 _tMulti-responsive Copolymers _gp. 189 -- _g8 _tInfrared and Raman Spectroscopy of Temperature-Responsive Polymers _gp. 197 / _rYasushi Maeda -- _g8.2 _tExperimental Methods to Measure IR and Raman Spectra of Aqueous Solutions _gp. 198 -- _g8.3 _tPoly(N-substituted acrylarnide)s _gp. 200 -- _g8.3.1 _tOverall Spectral Change _gp. 200 -- _g8.3.2 _tAmide Bands _gp. 202 -- _g8.3.3 _tC-H Stretching Bands _gp. 204 -- _g8.3.4 _tC-D Stretching Band _gp. 206 -- _g8.4 _tPoly(vinyl ether)s _gp. 207 -- _g8.5 _tPoly(meth)acrylates _gp. 208 -- _g8.6 _tEffects of Additives on Phase Behavior _gp. 210 -- _g8.7 _tTemperature-Responsive Copolymers and Gels _gp. 217 -- _g9 _tApplication of NMR Spectroscopy to Study Thermoresponsive PolymersJirí Spêvácek _gp. 225 -- _g9.2 _tCoil-Globule Phase Transition and Its Manifestation in NMR Spectra _gp. 225 -- _g9.3 _tTemperature Dependences of High-Resolution NMR Spectra: Phase-Separated Fraction p _gp. 227 -- _g9.4 _tMulticomponent Polymer Systems _gp. 230 -- _g9.5 _tEffects of Low-Molecular-Weight Additives on Phase Transition _gp. 234 -- _g9.6 _tBehavior of Water at the Phase Transition _gp. 236 -- _g10 _tPolarized Luminescence Studies of Nanosecond Dynamics of Thermosensitive Polymers in Aqueous Solutions _gp. 249 / _rVladimir D. Pautov and Tatiana N. Nekrasova and Tatiana D. Anan'eva and Ruslan Y. Smyslov -- _g10.2 _tTheoretical Part _gp. 250 -- _g10.2.1 _tPolarization of Luminescence _gp. 250 -- _g10.2.2 _tThe Use of Polarized Luminescence in the Studies of Nanosecond Dynamics of Macromolecules _gp. 253 -- _g10.3 _tExperimental Part _gp. 258 -- _g10.3.1 _tMethods of Synthesis of Polymers Containing Luminescent Markers _gp. 258 -- _g10.3.2 _tTechnique for Measurement of Luminescence Polarization _gp. 260 -- _g10.3.3 _tThermosensitive Water-Soluble Polymers _gp. 263 -- _g10.3.4 _tpH and Thermosensitive Water-Soluble Polymers _gp. 268 -- _g10.3.5 _tTemperature-Induced Transitions in Polymers in Nonaqueous Solutions _gp. 271 -- _gPart III _tApplications of Temperature-responsive Polymers _gp. 279 -- _g11 _tApplications of Temperature-Responsive Polymers Grafted onto Solid Core Nanoparticles _gp. 281 / _rEdward D.H. Mansfield and Adrian C. Williams and Vitaliy V. Khutoryanskiy -- _g11.2 _tSilica Nanoparticles _gp. 282 -- _g11.2.1 _tpNIPAM-functionalised Silica Nanoparticles _gp. 282 -- _g11.2.2 _tPoloxamer-functionalised Silica Nanoparticles _gp. 284 -- _g11.2.3 _tOther Polymers _gp. 286 -- _g11.3 _tMetallic Nanoparticles _gp. 286 -- _g11.3.1 _tpNIPAM-functionalised Metallic Nanoparticles _gp. 287 -- _g11.3.2 _tPoloxamer-functionalised Metallic Nanoparticles _gp. 288 |
| 505 | 8 | 0 |
_g11.3.3 _tElastin-functionalised Metallic Nanoparticles _gp. 288 -- _g11.3.4 _tOther Polymer-functionalised Metallic Nanoparticles _gp. 289 -- _g11.4 _tMagnetic Nanoparticles _gp. 290 -- _g11.4.1 _tpNIPAM-functionalised Magnetic Nanoparticles _gp. 290 -- _g11.4.2 _tPoloxamer-functionalised Magnetic Nanoparticles _gp. 291 -- _g11.4.3 _tOther TRP-functionalised Magnetic Nanoparticles _gp. 293 -- _g12 _tTemperature-responsive Polymers for Tissue Engineering _gp. 301 / _rKenichi Nagase and Masayuki Yamato and Teruo Okano -- _g12.1.1 _tThermo-responsive Cell Culture Dishes and Cell Sheets _gp. 301 -- _g12.1.2 _tThermo-responsive Cell Culture Dishes Prepared by Electron-beam-induced Polymerization _gp. 302 -- _g12.1.3 _tThermo-responsive Cell Culture Dishes for Enhancing Cell Adhesion and Proliferation by Immobilized Biological Ligands _gp. 303 -- _g12.1.4 _tThermo-responsive Cell Culture Dish Prepared by Living Radical Polymerization _gp. 304 -- _g12.1.5 _tPatterned Thermo-responsive Cell Culture Substrates _gp. 306 -- _g12.1.6 _tThermo-responsive Surfaces for Cell Separation _gp. 309 -- _g13 _tThermogel Polymers for Injectable Drug Delivery Systems _gp. 313 / _rVidhi M. Shah and Duc X. Nguyen and Deepa A. Rao and Raid G. Alany and Adam W.G. Alani -- _g13.2 _tPluronics<sup>®</sup> _gp. 314 -- _g13.3 _tPolyester-based Polymers _gp. 315 -- _g13.4 _tChitosan and Derivatives _gp. 317 -- _g13.5 _tPolypeptides _gp. 318 -- _g13.6 _tClinical Application of Thermogel Polymers _gp. 319 -- _g13.6.1 _tOcular Delivery _gp. 319 -- _g13.6.2 _tNasal Delivery _gp. 320 -- _g13.6.3 _tAntitumor Delivery/Drug Delivery Systems _gp. 321 -- _g14 _tThermoresponsive Electrospun Polymer-based (Nano)fibers _gp. 329 / _rMariliz Achilleos and Theodora Krasia-Christoforou -- _g14.2 _tBasic Principles of Electrospinning _gp. 330 -- _g14.3 _tPNIPAM-based Electrospun (Nano)fibers _gp. 332 -- _g14.3.1 _tTemperature-triggered Wettability _gp. 332 -- _g14.3.2 _tBiomedicine _gp. 335 -- _g14.3.2.1 _tDrug Delivery _gp. 336 -- _g14.3.2.2 _tTissue Engineering _gp. 339 -- _g14.3.2.3 _tBiosensing _gp. 341 -- _g14.3.2.4 _tSolid-phase Microextraction _gp. 341 -- _g14.3.2.5 _tMolecular Recognition _gp. 342 -- _g14.3.2.6 _tOrganic-Inorganic PNIPAM-based Electrospun (Nano)fibers _gp. 342 -- _g14.3.3 _tSensing _gp. 343 -- _g14.4 _tOther Types of Thermoresponsive Electrospun (Nano)fibers _gp. 345 -- _g15 _tCatalysis by Thermoresponsive Polymers _gp. 357 / _rNatalya A. Dolya and Sarkyt E. Kudaibergenov -- _g15.2 _tMetal Complexes Immobilized Within Thermosensitive Polymers _gp. 358 -- _g15.3 _tThermoresponsive Polyampholytes _gp. 358 -- _g15.4 _tThermosensitive Hydrogels in Catalysis _gp. 361 -- _g15.5 _tThermoresponsive Catalytically Active Nano- and Microgels, Spheres, Capsules, and Micelles _gp. 364 -- _g15.6 _tThermosensitive Self-Assemblies _gp. 367 -- _g15.7 _tMono- and Bimetallic Nanoparticles Stabilized by Thermoresponsive Polymers _gp. 368 -- _g15.8 _tEnzymes-Embedded Thermoresponsive Polymers _gp. 369 -- _g15.9 _tImmobilization of Magnetic Nanoparticles into the Matrix of Thermoresponsive Polymers for Efficient Separation of Catalysts _gp. 369. |
| 650 | 0 |
_aThermoresponsive polymers. _932705 |
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| 650 | 6 |
_aPolymères thermosensibles. _932706 |
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| 650 | 7 |
_aThermoresponsive polymers. _2fast _0(OCoLC)fst01922233 _932705 |
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| 700 | 1 |
_aKhutoryanskiy, Vitaliy V., _eeditor. _932707 |
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| 700 | 1 |
_aGeorgiou, Theoni, _eeditor. _932708 |
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| 776 | 0 | 8 |
_iEbook version : _z9781119157809 |
| 906 |
_a7 _bcbc _ccopycat _d2 _encip _f20 _gy-gencatlg |
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_2ddc _c1 _e23 _n0 |
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