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1. Full Text Confined crystallization morphology of poly(ϵ‐caprolactone) block within poly(ϵ‐caprolactone)–poly(l‐lactide) copolymers
by Han, Weiqiang and Li, Shaojie and Liao, Xia and He, Bin and Yang, Qi and Li, Guangxian
Polymer international, ISSN 0959-8103, 12/2019, Volume 68, Issue 12, pp. 1992 - 2003
annealing temperature | growth rate | poly(ϵ‐caprolactone)–poly(l‐lactide) copolymers | crystallization morphologies | Polymer Science | Physical Sciences | Science & Technology | Crystal growth | Atomic force microscopy | Differential scanning calorimetry | Chemical industry | Annealing | Growth rate | Crystallization | Polylactic acid | Lamellae | Molecular chains | Block copolymers | Organic chemistry | Copolymers | Optical microscopy | Spherulites | Microscopy | Morphology | Light microscopy
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2. Full Text Block–Stereoblock Copolymers of Poly(ϵ‐Caprolactone) and Poly(Lactic Acid)
by Rosen, Tomer and Goldberg, Israel and Navarra, Wanda and Venditto, Vincenzo and Kol, Moshe
Angewandte Chemie (International ed.), ISSN 1433-7851, 06/2018, Volume 57, Issue 24, pp. 7191 - 7195
block copolymers | magnesium | poly(ϵ-caprolactone) | poly(lactic acid) | living polymerization | Physical Sciences | Chemistry | Chemistry, Multidisciplinary | Science & Technology | Thermal properties | Copolymers | Polylactic acid | Copolymerization | Magnesium | Thermodynamic properties | Enantiomers | Chemical synthesis | Monomers | Block copolymers | Alcohols
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3. Full Text Morphological, thermal, and mechanical properties of poly(ε‐caprolactone)/poly(ε‐caprolactone)‐grafted‐cellulose nanocrystals mats produced by electrospinning
by Bellani, Caroline F and Pollet, Eric and Hebraud, Anne and Pereira, Fabiano V and Schlatter, Guy and Avérous, Luc and Bretas, Rosario E. S and Branciforti, Marcia C
Journal of applied polymer science, ISSN 0021-8995, 06/2016, Volume 133, Issue 21, p. n/a
nanoparticles | cellulose and other wood products | electrospinning | nanowires | nanocrystals | grafting | polyesters | Polymer Science | Physical Sciences | Science & Technology
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4. Full Text Polymorphism and crystallization in poly(vinylidene fluoride)/ poly(ϵ‐caprolactone)–block–poly(dimethylsiloxane)–block–poly(ϵ‐caprolactone) blends
by Seraji, Seyed Mohsen and Guo, Qipeng
Polymer international, ISSN 0959-8103, 02/2020, Volume 69, Issue 2, pp. 173 - 183
block copolymer | crystallization | polymorphism | morphology | blends | Polymer Science | Physical Sciences | Science & Technology | Infrared spectroscopy | Fourier transforms | Silicone resins | Polymer blends | Crystallization | Vinylidene fluoride | Mapping | Fluorides | Crystallinity | Melting points | Block copolymers | Organic chemistry | Optical microscopy | Fluoride | Morphology | Infrared imaging | Miscibility | Light microscopy | Polyvinylidene fluorides | Kinetics | Polydimethylsiloxane | Crystal structure | Polymorphism
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5. Full Text Synthesis of Functional Poly(ε‐caprolactone)s via Living Ring‐Opening Polymerization of ε‐Caprolactone Using Functionalized Aluminum Alkoxides as Initiators
by Piskun, Yulia A and Vasilenko, Irina V and Zaitsev, Kirill V and Oprunenko, Yuri F and Kostjuk, Sergei V
Macromolecular chemistry and physics, ISSN 1022-1352, 04/2017, Volume 218, Issue 7, pp. 1600580 - n/a
ring‐opening polymerization | graft copolymer | aluminum alkoxides | macromonomer | poly(ε‐caprolactone) | poly(ε-caprolactone) | ring-opening polymerization | Polymer Science | Physical Sciences | Science & Technology | Synthesis (chemistry) | Bulk polymerization | Aluminum | Polymerization | Aluminum compounds | Polyester resins | Molecular weight | Alcohols
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6. Full Text Effects of nozzle type atmospheric dry air plasma on L929 fibroblast cells hybrid poly (ε-caprolactone)/chitosan/poly (ε-caprolactone) scaffolds interactions
by Ozkan, Ozan and Turkoglu Sasmazel, Hilal
Journal of bioscience and bioengineering, ISSN 1389-1723, 08/2016, Volume 122, Issue 2, pp. 232 - 239
L929 fibroblast cells | Nozzle type atmospheric plasma | Electrospun chitosan | Dry air | Electrospun poly (ε-caprolactone) | Food Science & Technology | Life Sciences & Biomedicine | Biotechnology & Applied Microbiology | Science & Technology | Cell Line | Cell Survival - drug effects | Nanostructures - ultrastructure | Tissue Engineering - methods | Caproates - chemistry | Air | Cell Culture Techniques - methods | Atmospheric Pressure | Polystyrenes - chemistry | Tissue Scaffolds - chemistry | Animals | Chitosan - chemistry | Surface Properties | Hydrophobic and Hydrophilic Interactions | Nanostructures - chemistry | Fibroblasts - cytology | Mice | Lactones - chemistry | Plasma physics | Chemical properties | Index Medicus
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7. Full Text Viscoelastic interfacial properties of compatibilized poly(ε‐caprolactone)/polylactide blend
by Wu, Defeng and Zhang, Yisheng and Yuan, Lijuan and Zhang, Ming and Zhou, Weidong
Journal of polymer science. Part B, Polymer physics, ISSN 0887-6266, 04/2010, Volume 48, Issue 7, pp. 756 - 765
polylactide (PLA) | compatibilization | rheology | poly(ε‐caprolactone) (PCL) | blend | Poly | Blend | Compatibilization | Rheology | Polylactide (PLA) | caprolactone) (PCL | Polymer Science | Physical Sciences | Science & Technology | Applied sciences | Rheology and viscoelasticity | Organic polymers | Physicochemistry of polymers | Properties and characterization | Exact sciences and technology | Controllers | Copolymers | Stress relaxation | Blends | Programmable logic devices | Interfacial properties | Polylactides | Compatibility
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8. Full Text Surface grafting of microfibrillated cellulose with poly( ε-caprolactone) – Synthesis and characterization
by Lönnberg, Hanna and Fogelström, Linda and Berglund, Lars and Malmström, Eva and Hult, Anders and My Ahmed Said Azizi Samir
European polymer journal, ISSN 0014-3057, 2008, Volume 44, Issue 9, pp. 2991 - 2997
Ring-opening polymerization | Differential scanning calorimetry | Thermal gravimetric analysis | Grafting of poly(ε-caprolactone) | Dispersion | Microfibrillated cellulose | Polymer Science | Physical Sciences | Science & Technology | Applied sciences | Cellulose and derivatives | Physicochemistry of polymers | Natural polymers | Exact sciences and technology | Polymerization | Chemical properties | Analysis | Cellulose
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9. Full Text Preparation of poly(ε‐caprolactone)/poly(ε‐caprolactone‐co‐lactide) (PCL/PLCL) blend filament by melt spinning
by Gupta, Bhuvanesh and Geeta and Ray, Alok R
Journal of applied polymer science, ISSN 0021-8995, 02/2012, Volume 123, Issue 4, pp. 1944 - 1950
poly(ε‐caprolactone) | biodegradable filament | blend | melt spinning | poly(ε‐caprolactone‐co‐lactide) | poly(ε-caprolactone-co-lactide) | poly(ε-caprolactone) | Polymer Science | Physical Sciences | Science & Technology | Applied sciences | Technology of polymers | Fibers and threads | Exact sciences and technology | Polymer industry, paints, wood | Forms of application and semi-finished materials | Differential scanning calorimetry | Scanning electron microscopy | Blends | Blending | Filaments | Melt spinning | Crystallinity | Physical properties
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10. Full Text Enzymatic degradation, electronic, and thermal properties of graphite‐ and graphene oxide‐filled biodegradable polylactide/poly(ε‐caprolactone) blend composites
by Botlhoko, Orebotse Joseph and Makwakwa, Dimakatso and Ray, Suprakas Sinha and Ramontja, James
Journal of applied polymer science, ISSN 0021-8995, 05/2019, Volume 136, Issue 17, pp. 47387 - n/a
crystallization | graphene oxide | degradation | conductivity | graphite | blend composites | Polymer Science | Physical Sciences | Science & Technology | Electronic properties | Polymer matrix composites | Network formation | Biodegradability | Particulate composites | Crystallization | Heat conductivity | Skeletal composites | Graphene | Electrical resistivity | Electronic packaging | Graphite | Miscibility | Thermal conductivity | Thermal management | Thermodynamic properties | Heat transfer | Thermal degradation
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11. Full Text Nonisothermal crystallization kinetics of poly(ε‐caprolactone) blocks in double crystalline triblock copolymers containing poly(3‐hydroxybutyrate‐co‐3‐hydroxyvalerate) and poly(ε‐caprolactone) units
by Liu, Qingsheng and Deng, Bingyao and Tung, Chia‐Hsin and Zhu, Meifang and Shyr, Tien‐Wei
Journal of polymer science. Part B, Polymer physics, ISSN 0887-6266, 11/2010, Volume 48, Issue 21, pp. 2288 - 2295
block copolymer | Mo equation | activation energy | crystallization | poly(ε‐caprolactone) | poly(3‐hydroxbutyrate‐co‐3‐hydroxyvalerate) | Poly(ε-caprolactone) | Poly(3-hydroxbutyrate-co-3-hydroxyvalerate) | Activation energy | Block copolymer | Crystallization | Polymer Science | Physical Sciences | Science & Technology | Applied sciences | Organic polymers | Physicochemistry of polymers | Properties and characterization | Exact sciences and technology | Differential scanning calorimetry | Reproduction | Cooling rate | Mathematical analysis | Block copolymers | Crystal structure | Melts
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