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1. Full Text Poly-ε-caprolactone based formulations for drug delivery and tissue engineering: A review
by Dash, Tapan K and Konkimalla, V. Badireenath
Journal of Controlled Release, ISSN 0168-3659, 02/2012, Volume 158, Issue 1, pp. 15 - 33
Biodegradable polymer based novel drug delivery systems have provided many avenues to improve therapeutic efficacy and pharmacokinetic parameters of medicinal... 
Nanoparticles | Microspheres | Scaffold | Films | Micelles | Fibers | TRIBLOCK COPOLYMER | IN-VITRO RELEASE | BIODEGRADABLE MICROSPHERES | SUPERCRITICAL CARBON-DIOXIDE | POROUS SCAFFOLDS | MECHANICAL-PROPERTIES | CHEMISTRY, MULTIDISCIPLINARY | POLYMERIC NANOPARTICLES | ELECTROSPUN POLYCAPROLACTONE | POLY(EPSILON-CAPROLACTONE) MICROSPHERES | PHARMACOLOGY & PHARMACY | SPUN POLYCAPROLACTONE FIBERS
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2. Full Text Reinforcing poly(ε-caprolactone) nanofibers with cellulose nanocrystals
by Zoppe, Justin O and Peresin, Maria S and Habibi, Youssef and Venditti, Richard A and Rojas, Orlando J
ACS Applied Materials and Interfaces, ISSN 1944-8244, 09/2009, Volume 1, Issue 9, pp. 1996 - 2004
We studied the use of cellulose nanocrystals (CNXs) obtained after acid hydrolysis of ramie cellulose fibers to reinforce poly(epsilon-caprolactone) (PCL)... 
cellulose whiskers | nanoparticles | poly(ε-caprolactone) | electrospinning | fiber reinforcement | surface grafting | nanocrystalline cellulose | nanocomposites | nanofibers | cellulose nanocrystals | MATRIX | MATERIALS SCIENCE, MULTIDISCIPLINARY | NANOSCIENCE & NANOTECHNOLOGY | POLYMERIZATION | COPOLYMERS | MECHANICAL-PROPERTIES | FIBERS | NANOTUBES | poly(epsilon-caprolactone) | WHISKERS | SCAFFOLDS | Nanofibers - chemistry | Microscopy, Electron, Transmission | Microscopy, Electron, Scanning | Temperature | Nanoparticles - chemistry | Nanotechnology - methods | Thermogravimetry | Materials Testing | Spectroscopy, Fourier Transform Infrared | Polyesters - chemistry | Tissue Engineering - instrumentation | Cellulose - chemistry | Surface Properties | Nanostructures - chemistry | Calorimetry, Differential Scanning
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3. Full Text Co-electrospun polyε-caprolactone)/cellulose nanofibers-fabrication and characterization
by Ahmed, Farooq and Saleemi, Sidra and Khatri, Zeeshan and Abro, Muhammad Ishaque and Kim, Ick-Soo
Carbohydrate Polymers, ISSN 0144-8617, 01/2015, Volume 115, pp. 388 - 393
We report fabrication of poly ε-caprolactone) (PCL)/cellulose (CEL) nanofiber blends via co-electrospinning for the possible use as biofilters and biosensor... 
Polyε-caprolactone) Cellulose nanofiber Co-electrospinning Wicking rate PCL/CEL
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4. Full Text Tailoring impact toughness of poly(L-lactide)/poly(ε-caprolactone) (PLLA/PCL) blends by controlling crystallization of PLLA matrix
by Bai, Hongwei and Xiu, Hao and Gao, Jian and Deng, Hua and Zhang, Qin and Yang, Mingbo and Fu, Qiang
ACS Applied Materials and Interfaces, ISSN 1944-8244, 02/2012, Volume 4, Issue 2, pp. 897 - 905
Melt blending poly(L-lactide) (PLLA) with various biodegradable polymers has been thought to be the most economic and effective route to toughen PLLA without... 
renewable resource | crystallization | poly(L-lactide) | toughness | biodegradable polymer | sustainable materials
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5. Full Text Osteogenic potential of human dental pulp stem cells cultured onto poly-ε-caprolactone/poly (rotaxane) scaffolds
by Oliveira, N.K and Salles, T.H.C and Pedroni, A.C and Miguita, L and D’Ávila, M.A and Marques, M.M and Deboni, M.C.Z
Dental Materials, ISSN 0109-5641, 09/2019
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6. Isotope Effects on the Crystallization Kinetics of Selectively Deuterated Poly(ε‐Caprolactone)
by Lengwan Li and Dongsook Chang and Matthias M L Arras and Wei Li and Tianyu Li and Jong K Keum and Peter V Bonnesen and Xiangfang Peng and Kunlun Hong
Journal of Polymer Science. Part B, Polymer Physics, ISSN 0887-6266, 06/2019, Volume 57, Issue 12, pp. 771 - 779
Deuterium labeling of semi‐crystalline polymers can dramatically affect their crystallization behaviors. However, the influence of different labeled positions... 
Deuterium | Lamellar structure | Parameters | Melt temperature | Crystallization | Supercooling | Differential thermal analysis | Inhomogeneity | Deuteration
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7. Full Text The contemporary role of ε-caprolactone chemistry to create advanced polymer architectures
by Sisson, Adam L and Ekinci, Duygu and Lendlein, Andreas
Polymer, ISSN 0032-3861, 08/2013, Volume 54, Issue 17, pp. 4333 - 4350
Poly( -caprolactones) (PCLs) belong to the first generation of synthetic aliphatic polyesters. Their biodegradability motivated their extensive exploration as... 
Biodegradable | Micelles | Poly(ε-caprolactone) | Precursor | Block copolymer | Shape-memory effect | Polymer network | Poly(epsilon-caprolactone) | POLYMER SCIENCE | POTENTIAL BIOMEDICAL APPLICATIONS | AMPHIPHILIC BLOCK-COPOLYMER | STAR-SHAPED POLY(EPSILON-CAPROLACTONE) | CONTROLLED DRUG-RELEASE | TRANSFER RADICAL POLYMERIZATION | INCLUSION COMPLEX-FORMATION | POLYCAPROLACTONE DIBLOCK COPOLYMERS | IN-VITRO DEGRADATION | RING-OPENING POLYMERIZATION | GLYCOL) MULTIBLOCK COPOLYMERS
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8. Full Text Chitosan functionalised poly(ε-caprolactone) nanofibrous membranes as potential anti-adhesive barrier films
by Mao, Ying and Sanbhal, Noor and Li, Yan and Yu, Chenglong and Wang, Fujun and Wang, Lu and Guidoin, Robert and Gao, Jing
Reactive and Functional Polymers, ISSN 1381-5148, 10/2019, Volume 143, p. 104319
Abdominal adhesion could be minimised by introducing an anti-adhesive barrier between the injured site and the surrounding tissue or organ. Here, we propose an... 
Poly(ε-caprolactone) | O2 plasma | Nanofibrous membranes | Chitosan functionalisation | Anti-adhesive barrier
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9. Full Text Reversible triple-shape effect of polymer networks containing polypentadecalactone- and poly(ε-caprolactone)-segments
by Zotzmann, Jörg and Behl, Marc and Hofmann, Dieter and Lendlein, Andreas
Advanced Materials, ISSN 0935-9648, 08/2010, Volume 22, Issue 31, pp. 3424 - 3429
A reversible triple-shape effect is achieved for multi-phase polymer networks based on two different crystallizable segments The reversibility of the two... 
PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | MEMORY PROPERTIES | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | POLY(OMEGA-PENTADECALACTONE) | DEGRADATION | NANOSCIENCE & NANOTECHNOLOGY | LIQUID-CRYSTALLINE ELASTOMERS | CHEMISTRY, MULTIDISCIPLINARY | Stress, Mechanical | Polyesters - chemistry | Temperature | X-Ray Diffraction
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10. Full Text Fabrication and Characterization of Poly(ε-caprolactone)/α-Cyclodextrin Pseudorotaxane Nanofibers
by Narayanan, Ganesh and Aguda, Remil and Hartman, Matthew and Chung, Ching-Chang and Boy, Ramiz and Gupta, Bhupender S and Tonelli, Alan E
Biomacromolecules, ISSN 1525-7797, 01/2016, Volume 17, Issue 1, pp. 271 - 279
Multifunctional scaffolds comprising neat poly(epsilon-caprolactone) (PCL) and alpha-cyclodextrin pseudorotaxanated in alpha-cyclodextrin form have been... 
CRYSTALLIZATION | POLYMER SCIENCE | BIOCHEMISTRY & MOLECULAR BIOLOGY | SURFACE MODIFICATION | CHEMISTRY, ORGANIC | CYCLODEXTRIN INCLUSION-COMPOUNDS | POLY(ETHYLENE OXIDE)-UREA COMPLEXES | ALPHA-CYCLODEXTRIN | POLY(BUTYLENE SUCCINATE) | POLY(METHYL METHACRYLATE) | GAMMA-CYCLODEXTRINS | PHASE-BEHAVIOR | BETA-CYCLODEXTRIN | Nanofibers - chemistry | Rotaxanes - chemical synthesis | Microscopy, Electron, Scanning | Tissue Engineering - methods | Biocompatible Materials - chemistry | alpha-Cyclodextrins - chemistry | Tissue Scaffolds - chemistry | Biocompatible Materials - chemical synthesis | Polyesters - chemistry | Rotaxanes - chemistry | X-Ray Diffraction | alpha-Cyclodextrins - chemical synthesis | Calorimetry, Differential Scanning | Polyesters - chemical synthesis
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11. Full Text Crystallization kinetics as a sensitive tool to detect degradation in poly(lactide)/poly(ε-caprolactone)/ PCL-co-PC copolymers blends
by Giacobazzi, Greta and Rizzuto, Matteo and Zubitur, Manuela and Mugica, Agurtzane and Caretti, Daniele and Müller, Alejandro J
Polymer Degradation and Stability, ISSN 0141-3910, 10/2019, Volume 168, p. 108939
Poly(lactide)/poly(ε-caprolactone) blends (PLA/PCL) with composition 80/20 (w/w%) are immiscible but biodegradable and therefore often studied in the... 
Melt blending | Solution blending | poly(lactide)-poly(ε-caprolactone) blends | Crystallization
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12. Full Text Poly( -caprolactone) microcapsules and nanocapsules in drug delivery
by Pohlmann, Adriana Raffin and Fonseca, Francisco Noe and Paese, Karina and Detoni, Cassia Britto and Coradini, Karine and Beck, Ruy CR and Guterres, Silvia S
Expert Opinion on Drug Delivery, ISSN 1742-5247, 05/2013, Volume 10, Issue 5, pp. 623 - 638
Introduction: Poly( -caprolactone) (PCL), a biodegradable and biocompatible polymer, is useful to encapsulate a wide range of drugs making it an interesting... 
polymer | nanocapsules | drug delivery systems | microcapsules | lipid-core nanocapsules | poly(ϵ-caprolactone) | Microcapsules | Poly(ε-caprolactone) | Polymer | Drug delivery systems | Lipid-core nanocapsules | Nanocapsules | POLYMERIC NANOCAPSULES | CONTROLLED-RELEASE | TRETINOIN DEVELOPMENT | INDOMETHACIN-LOADED NANOCAPSULES | NANOSTRUCTURED SYSTEMS | ALKALINE-HYDROLYSIS | POLYESTER NANOCAPSULES | PHYSICOCHEMICAL CHARACTERIZATION | IN-VITRO PERMEATION | PHARMACOLOGY & PHARMACY | poly(epsilon-caprolactone) | Polymers - administration & dosage | Skin - metabolism | Drug Stability | Humans | Solubility | Capsules - chemistry | Nanocapsules - chemistry | Chemistry, Pharmaceutical | Drug Delivery Systems | Sunscreening Agents - administration & dosage | Polyesters - chemistry | Animals | Sunscreening Agents - pharmacokinetics | Drug Compounding | Biocompatible Materials
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13. Full Text Pore formation of poly(ε-caprolactone) scaffolds with melting point reduction in supercritical CO 2 foaming
by Chen, Chuan-Xin and Liu, Qian-Qian and Xin, Xin and Guan, Yi-Xin and Yao, Shan-Jing
Journal of Supercritical Fluids, ISSN 0896-8446, 11/2016, Volume 117, pp. 279 - 288
Poly(ε-caprolactone) (PCL) is recently developed for bone tissue engineering applications due to its lasting degradation rate which matches the natural growth... 
Supercritical carbon dioxide (sc-CO | Pore morphology | Scaffold | reduction | Batch foaming | Poly(ε-caprolactone) (PCL)
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14. Full Text Biodegradable poly(ɛ-caprolactone)–poly(ethylene glycol) copolymers as drug delivery system
by Wei, XiaWei and Gong, ChangYang and Gou, MaLing and Fu, ShaoZhi and Guo, QingFa and Guo, Gang and Shi, Shuai and Luo, Feng and Qiu, LiYan and Qian, ZhiYong
International Journal of Pharmaceutics, ISSN 0378-5173, 2009, Volume 381, Issue 1, pp. 1 - 18
Poly(ɛ-caprolactone)–poly(ethylene glycol) (PCL–PEG) copolymers are important synthetic biomedical materials with amphiphilicity, controlled biodegradability,... 
Nanoparticles | Poly(ɛ-caprolactone)–poly(ethylene glycol) copolymer | Polymeric drug delivery systems | Hydrogels | Microparticles | Poly(ε-caprolactone)-poly(ethylene glycol) copolymer | IN-VIVO PHARMACOKINETICS | SHELL TYPE NANOPARTICLES | PLA/PEO/PLA TRIBLOCK COPOLYMERS | PHOSPHATE BUFFER SOLUTION | AMPHIPHILIC BLOCK-COPOLYMER | EPSILON-CAPROLACTONE | METHOXY POLY(ETHYLENE GLYCOL) | TUMOR TARGETED DELIVERY | PHARMACOLOGY & PHARMACY | RING-OPENING POLYMERIZATION | Poly(epsilon-caprolactone)-poly(ethylene glycol) copolymer Microparticles | PEG-PCL-PEG | Biodegradation, Environmental | Nanoparticles - chemistry | Biocompatible Materials - chemistry | Humans | Polyesters - toxicity | Drug Carriers | Polyesters - chemistry | Animals | Ethylene Glycols - chemical synthesis | Ethylene Glycols - chemistry | Polyesters - chemical synthesis | Hydrogels - chemistry | Ethylene Glycols - toxicity | Drugs | Ethylene glycol | Drug delivery systems | Polyethylene | Nanotechnology | Vehicles | Index Medicus
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15. Full Text Crystallization behavior of poly(ε-caprolactone)/layered double hydroxide nanocomposites
by Yang, Zhe and Peng, Hongdan and Wang, Weizhi and Liu, Tianxi
Journal of Applied Polymer Science, ISSN 0021-8995, 06/2010, Volume 116, Issue 5, pp. 2658 - 2667
Nanocomposites | Morphology | Crystallization | Poly(ε-caprolactone)
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16. Full Text Composite Membranes of Poly(ε-caprolactone) with Bisphosphonate-Loaded Bioactive Glasses for Potential Bone Tissue Engineering Applications
by Terzopoulou, Zoi and Baciu, Diana and Gounari, Eleni and Steriotis, Theodore and Charalambopoulou, Georgia and Tzetzis, Dimitrios and Bikiaris, Dimitrios
Molecules (Basel, Switzerland), ISSN 1420-3049, 08/2019, Volume 24, Issue 17, p. 3067
Poly(ε-caprolactone) (PCL) is a bioresorbable synthetic polyester with numerous biomedical applications. PCL membranes show great potential in guided tissue... 
bioactive glasses | poly (ε-caprolactone) | biocompatibility | bone tissue engineering | strontium | osteogenesis | ion release | nanocomposites
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17. Full Text Understanding the mechanism of polymerization of ε-caprolactone catalyzed by aluminum salen complexes
by Miranda, Maria O and Deporre, Yvonne and Vazquez-Lima, Hugo and Johnson, Michelle A and Marell, Daniel J and Cramer, Christopher J and Tolman, William B
Inorganic Chemistry, ISSN 0020-1669, 12/2013, Volume 52, Issue 23, pp. 13692 - 13701
Studies of the kinetics of polymerization of epsilon-caprolactone (CL) by salen-aluminum catalysts comprising ligands with similar steric profiles but... 
RACEMIC LACTIDE | SINGLE-SITE | CYCLIC ESTERS | STEREOSELECTIVE POLYMERIZATION | LIGANDS | POLY(LACTIC ACID) | RING-OPENING POLYMERIZATION | RAC-LACTIDE | INITIATORS | METAL-COMPLEXES | CHEMISTRY, INORGANIC & NUCLEAR
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18. Full Text Rheology of the cellulose nanocrystals filled poly(ε-caprolactone) biocomposites
by Wang, Ke and Wang, Yuankun and Xu, Chunjiang and Wu, Defeng and Xie, Wenyuan and Xia, Qinru and Yang, Hui
Polymer, ISSN 0032-3861, 03/2018, Volume 140, pp. 167 - 178
The pristine and acetylated cellulose nanocrystal (CNC) particles were incorporated with poly(ε-caprolactone) to prepare two kinds of green nanocomposite... 
Poly(ε-caprolactone) | Rheology | Cellulose nanocrystal | Poly(epsilon-caprolactone) | POLYMER SCIENCE | VISCOELASTIC PROPERTIES | CRYSTALLIZATION BEHAVIOR | POLY(VINYLIDENE FLUORIDE) COMPOSITES | POLY(PHENYLENE SULFIDE) | LINEAR VISCOELASTICITY | MECHANICAL-PROPERTIES | CARBON NANOTUBES | ISOTHERMAL CRYSTALLIZATION | POLYLACTIDE COMPOSITES | POLYMER COMPOSITES | Thermodynamics | Green technology | Cellulose
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