Recent advances in shape–memory polymers: Structure, mechanism, functionality, modeling and applications
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Yong Zhu | Jinlian Hu | Yong Zhu | Jinlian Hu | Jing Lu | Huahua Huang | Jing Lu | Huahua Huang
[1] Haibao Lu,et al. Fabrication and electroactive responsive behavior of shape–memory nanocomposite incorporated with self-assembled multiwalled carbon nanotube nanopaper , 2012 .
[2] Jinlian Hu,et al. Rapidly switchable water-sensitive shape-memory cellulose/elastomer nano-composites , 2012 .
[3] Rui Huang,et al. Unique aspects of a shape memory polymer as the substrate for surface wrinkling. , 2012, ACS applied materials & interfaces.
[4] Walter Voit,et al. Triple-Shape Memory Polymers Based on Self-Complementary Hydrogen Bonding. , 2012, Macromolecules.
[5] Xuehong Lu,et al. Triple-shape properties of star-shaped POSS-polycaprolactone polyurethane networks , 2012 .
[6] Marc Behl,et al. Shape-memory properties of magnetically active triple-shape nanocomposites based on a grafted polymer network with two crystallizable switching segments , 2012 .
[7] W. Huang,et al. Stimulus-responsive shape memory materials: A review , 2012 .
[8] K. Nagata,et al. Shape memory properties of polyurethane/poly(oxyethylene) blends , 2012 .
[9] B. Kim,et al. Shape memory polyurethane foams , 2012 .
[10] Rajeswari M. Kasi,et al. Exploiting Microphase‐Separated Morphologies of Side‐Chain Liquid Crystalline Polymer Networks for Triple Shape Memory Properties , 2011 .
[11] Lei Jiang,et al. Microfiber SMPU film affords quicker shape recovery than the bulk one , 2011 .
[12] Jinlian Hu,et al. Tunable shape recovery of polymeric nano-composites , 2011 .
[13] William R. Rodgers,et al. Semi-crystalline two-way shape memory elastomer , 2011 .
[14] T. Xie. Recent advances in polymer shape memory , 2011 .
[15] T. Ikeda,et al. Photomobile polymer materials: from nano to macro , 2011 .
[16] Jinlian Hu,et al. Polymeric Shape Memory Nanocomposites with Heterogeneous Twin Switches , 2011 .
[17] Yanju Liu,et al. Shape-memory polymers and their composites: Stimulus methods and applications , 2011 .
[18] Christine Jérôme,et al. Design of cross-linked semicrystalline poly(ε-caprolactone)-based networks with one-way and two-way shape-memory properties through Diels-Alder reactions. , 2011, Chemistry.
[19] Qi Ge,et al. Programmable, Pattern‐Memorizing Polymer Surface , 2011, Advanced materials.
[20] Yuxing Peng,et al. A versatile approach to achieve quintuple-shape memory effect by semi-interpenetrating polymer networks containing broadened glass transition and crystalline segments , 2011 .
[21] Haibao Lu,et al. Nanopaper enabled shape-memory nanocomposite with vertically aligned nickel nanostrand: controlled synthesis and electrical actuation , 2011 .
[22] A. Seifalian,et al. Polymeric coating of surface modified nitinol stent with POSS-nanocomposite polymer. , 2011, Colloids and surfaces. B, Biointerfaces.
[23] Yang-Tse Cheng,et al. Remote Controlled Multishape Polymer Nanocomposites with Selective Radiofrequency Actuations , 2011, Advanced materials.
[24] Justin R. Kumpfer,et al. Thermo-, photo-, and chemo-responsive shape-memory properties from photo-cross-linked metallo-supramolecular polymers. , 2011, Journal of the American Chemical Society.
[25] Eun-Young Kim,et al. Organic–inorganic nanocomposite bilayers with triple shape memory effect , 2011 .
[26] M. Meier,et al. Shape Memory Polyurethanes from Renewable Polyols Obtained by ATMET Polymerization of Glyceryl Triundec-10-enoate and 10-Undecenol , 2011 .
[27] T. Xie,et al. Strain‐Based Temperature Memory Effect for Nafion and Its Molecular Origins , 2011 .
[28] Wei Xu,et al. Thermomechanical behavior of thermoset shape memory polymer programmed by cold-compression: Testing and constitutive modeling , 2011 .
[29] Wei Min Huang,et al. Formation of micro/nano-scale wrinkling patterns atop shape memory polymers , 2011 .
[30] Jinlian Hu,et al. Study on the structure and morphology of supramolecular shape memory polyurethane containing pyridine moieties , 2011 .
[31] Martin L. Dunn,et al. Two-way reversible shape memory effects in a free-standing polymer composite , 2011 .
[32] Jinlian Hu,et al. Comparison of shape memory polyurethanes and polyurethane-ureas having crystalline reversible phase , 2011 .
[33] L. Mattoso,et al. Polyaniline‐modified cellulose nanofibrils as reinforcement of a smart polyurethane , 2011 .
[34] Jinlian Hu,et al. Shape memory polyurethane-ureas based on isophorone diisocyanate , 2011 .
[35] R. Vaia,et al. Light-activated shape memory of glassy, azobenzene liquid crystalline polymer networks , 2011 .
[36] T. Kang,et al. Thermoresponsive shape memory characteristics of polyurethane electrospun web , 2011 .
[37] Hsin Her Yu,et al. Study of electroactive shape memory polyurethane–carbon nanotube hybrids , 2011 .
[38] Liqun Zhang,et al. Biobased poly(propylene sebacate) as shape memory polymer with tunable switching temperature for potential biomedical applications. , 2011, Biomacromolecules.
[39] R. Kasi,et al. Side-chain liquid crystalline polymer networks: exploiting nanoscale smectic polymorphism to design shape-memory polymers. , 2011, ACS nano.
[40] Gordon G Wallace,et al. Reversible shape memory of nanoscale deformations in inherently conducting polymers without reprogramming. , 2011, Journal of Physical Chemistry B.
[41] Thao D. Nguyen,et al. Influence of thermoviscoelastic properties and loading conditions on the recovery performance of shape memory polymers , 2011 .
[42] J. Ivens,et al. Shape recovery in a thermoset shape memory polymer and its fabric-reinforced composites , 2011 .
[43] Qingwen Li,et al. Carbon nanotube composite films with switchable transparency. , 2011, ACS applied materials & interfaces.
[44] D. Ratna,et al. Shape memory polymer system of semi-interpenetrating network structure composed of crosslinked poly (methyl methacrylate) and poly (ethylene oxide) , 2011 .
[45] Zbigniew Stachurski,et al. Modeling shape memory effect in uncrosslinked amorphous biodegradable polymer , 2011 .
[46] G. Assche,et al. SECM study of defect repair in self-healing polymer coatings on metals , 2011 .
[47] Jinlian Hu,et al. Coaxial electrospun polyurethane core-shell nanofibers for shape memory and antibacterial nanomaterials , 2011 .
[48] Jinlian Hu,et al. Study of water vapor permeability of shape memory polyurethane nanofibrous nonwovens , 2011 .
[49] Jinlian Hu,et al. Study of the thermal properties of shape memory polyurethane nanofibrous nonwoven , 2011 .
[50] Xiaofan Luo,et al. Linear/network poly(ε-caprolactone) blends exhibiting shape memory assisted self-healing (SMASH). , 2011, ACS applied materials & interfaces.
[51] Tao Xie,et al. Significant Impact of Thermo-Mechanical Conditions on Polymer Triple-Shape Memory Effect , 2011 .
[52] Xiangying Sun,et al. Synthesis, properties, and light-induced shape memory effect of multiblock polyesterurethanes containing biodegradable segments and pendant cinnamamide groups. , 2011, Biomacromolecules.
[53] Xiaofan Luo,et al. A functionally graded shape memory polymer , 2011 .
[54] Lianxi Zheng,et al. Water-responsive shape memory hybrid: Design concept and demonstration , 2011 .
[55] Fenglong Ji. Study on the shape memory mechanism of SMPUs and development of high-performance SMPUs , 2010 .
[56] Andreas Lendlein,et al. Relaxation based modeling of tunable shape recovery kinetics observed under isothermal conditions for amorphous shape-memory polymers , 2010 .
[57] Thorsten Pretsch,et al. Durability of a polymer with triple-shape properties , 2010 .
[58] Guoqiang Li,et al. A biomimic shape memory polymer based self-healing particulate composite , 2010 .
[59] Mercedes Fernández,et al. Thermal and Viscoelastic Features of New Nanocomposites Based on a Hot‐Melt Adhesive Polyurethane and Multi‐Walled Carbon Nanotubes , 2010 .
[60] Qihua Wang,et al. Shape memory polyurethanes containing azo exhibiting photoisomerization function , 2010 .
[61] I. J. Rao,et al. Modeling the mechanics of light activated shape memory polymers , 2010 .
[62] J. Rossiter,et al. McKibben artificial muscle using shape-memory polymer , 2010 .
[63] Marc Behl,et al. Copolymer Networks Based on Poly(ω‐pentadecalactone) and Poly(ϵ‐caprolactone)Segments as a Versatile Triple‐Shape Polymer System , 2010 .
[64] Dan Yang,et al. A novel shape memory polynorbornene functionalized with poly(ɛ-caprolactone) side chain and cyano group through ring-opening metathesis polymerization , 2010 .
[65] Junjun Li,et al. Encoding Localized Strain History Through Wrinkle Based Structural Colors , 2010, Advanced materials.
[66] H. Cao,et al. Tailored (meth)acrylate shape-memory polymer networks for ophthalmic applications. , 2010, Macromolecular bioscience.
[67] X. Yi,et al. Smart Materials of Cured Epoxy Polymer Modified by 6F-PEEK with Shape Memory Effect , 2010 .
[68] J. Cho,et al. Application of shape memory polyurethane in orthodontic , 2010, Journal of materials science. Materials in medicine.
[69] Martin L. Dunn,et al. Constitutive Modeling of Shape Memory Effects in Semicrystalline Polymers With Stretch Induced Crystallization , 2010 .
[70] Jinlian Hu,et al. Properties and mechanism of two-way shape memory polyurethane composites , 2010 .
[71] Guoqiang Li,et al. Shape memory polymer based self-healing syntactic foam: 3-D confined thermomechanical characterization , 2010 .
[72] Robin Shandas,et al. Photopolymerized Thiol-Ene Systems as Shape Memory Polymers. , 2010, Polymer.
[73] Richard V. Beblo,et al. Demonstration of a multiscale modeling technique: prediction of the stress–strain response of light activated shape memory polymers , 2010 .
[74] Cheng Luo,et al. Fabrication of micropatterns on the sidewalls of a thermal shape memory polystyrene block , 2010 .
[75] G. Assche,et al. Investigation of the self-healing properties of shape memory polyurethane coatings with the ‘odd random phase multisine’ electrochemical impedance spectroscopy , 2010 .
[76] Xiaofan Luo,et al. Triple‐Shape Polymeric Composites (TSPCs) , 2010 .
[77] Marc Behl,et al. Reversible Triple‐Shape Effect of Polymer Networks Containing Polypentadecalactone‐ and Poly(ε‐caprolactone)‐Segments , 2010, Advanced materials.
[78] A. Lendlein,et al. Multifunctional Shape‐Memory Polymers , 2010, Advanced materials.
[79] Thao D Nguyen,et al. Modeling the Relaxation Mechanisms of Amorphous Shape Memory Polymers , 2010, Advanced materials.
[80] R. Kasi,et al. Shape Memory Behavior of Side-Chain Liquid Crystalline Polymer Networks Triggered by Dual Transition Temperatures , 2010 .
[81] Yan Ju Liu,et al. Magnetic Field Activation of Thermoresponsive Shape-Memory Polymer with Embedded Micron Sized Ni Powder , 2010 .
[82] M. Kokabi,et al. Magnetic Field Actuation of Shape Memory Nanocomposites , 2010 .
[83] Lallit Anand,et al. A thermo-mechanically-coupled large-deformation theory for amorphous polymers in a temperature range which spans their glass transition , 2010 .
[84] Lallit Anand,et al. Thermally actuated shape-memory polymers: Experiments, theory, and numerical simulations , 2010 .
[85] Junhua Zhang,et al. Solvent induced shape recovery of shape memory polymer based on chemically cross-linked poly(vinyl alcohol) , 2010 .
[86] Dimitris C. Lagoudas,et al. Analysis of the finite deformation response of shape memory polymers: II. 1D calibration and numerical implementation of a finite deformation, thermoelastic model , 2010 .
[87] Jae Whan Cho,et al. Optically Active Multi-Walled Carbon Nanotubes for Transparent, Conductive Memory-Shape Polyurethane Film , 2010 .
[88] Jinlian Hu,et al. A Brief Review of Stimulus-active Polymers Responsive to Thermal, Light, Magnetic, Electric, and Water/Solvent Stimuli , 2010 .
[89] Manu John,et al. Self-healing of sandwich structures with a grid stiffened shape memory polymer syntactic foam core , 2010 .
[90] Jinlian Hu. Shape-Memory Polymer Textile , 2010 .
[91] P. Mather,et al. Conductive shape memory nanocomposites for high speed electrical actuation , 2010 .
[92] Siu Wing Or,et al. dc- and ac-magnetic field-induced strain effects in ferromagnetic shape memory composites of Ni–Mn–Ga single crystal and polyurethane polymer , 2010 .
[93] Jinlian Hu,et al. Triple shape memory effect in multiple crystalline polyurethanes , 2010 .
[94] Wei Min Huang,et al. Thermo-moisture responsive polyurethane shape-memory polymer and composites: a review , 2010 .
[95] Jinlian Hu,et al. A review of actively moving polymers in textile applications , 2010 .
[96] Alexander Kuhn,et al. Nanotube fibers for electromechanical and shape memory actuators , 2010 .
[97] Marc Behl,et al. Non-contact actuation of triple-shape effect in multiphase polymer network nanocomposites in alternating magnetic field , 2010 .
[98] Yang-Tse Cheng,et al. Self-healable graphene polymer composites , 2010 .
[99] Marc Behl,et al. Triple-shape polymers , 2010 .
[100] Ingrid A. Rousseau,et al. Shape memory epoxy: Composition, structure, properties and shape memory performances , 2010 .
[101] R. Reuben,et al. Thermo-mechanical properties of polystyrene-based shape memory nanocomposites , 2010 .
[102] Markus Böl,et al. Finite element-based multi-phase modelling of shape memory polymer stents , 2010 .
[103] Jinlian Hu,et al. Fourier transform infrared study of supramolecular polyurethane networks containing pyridine moieties for shape memory materials , 2010 .
[104] Jae Whan Cho,et al. Electroactive shape memory performance of polyurethane composite having homogeneously dispersed and covalently crosslinked carbon nanotubes , 2010 .
[105] Hirohisa Tamagawa,et al. Thermo-responsive two-way shape changeable polymeric laminate , 2010 .
[106] Yanlei Yu,et al. Three‐Dimensional Photomobility of Crosslinked Azobenzene Liquid‐Crystalline Polymer Fibers , 2010, Advanced materials.
[107] Xin Lan,et al. Study on the activation of styrene-based shape memory polymer by medium-infrared laser light , 2010 .
[108] T. Xie. Tunable polymer multi-shape memory effect , 2010, Nature.
[109] Tae Jin Kang,et al. Simulation of mechanical behavior of temperature-responsive braided stents made of shape memory polyurethanes. , 2010, Journal of biomechanics.
[110] Woong-Ryeol Yu,et al. Two-way shape memory behavior of shape memory polyurethanes with a bias load , 2010 .
[111] Guoqiang Li,et al. A self-healing 3D woven fabric reinforced shape memory polymer composite for impact mitigation , 2010 .
[112] G. Ozin,et al. Electroactuation of alkoxysilane-functionalized polyferrocenylsilane microfibers. , 2010, Journal of the American Chemical Society.
[113] Jinsong Leng,et al. Synergistic effect of carbon nanofiber and carbon nanopaper on shape memory polymer composite , 2010 .
[114] Jinlian Hu,et al. Theoretical study of hydrogen bonding interactions on MDI-based polyurethane , 2010, Journal of molecular modeling.
[115] Keisuke Nakagawa,et al. Shape memory behavior of poly(methyl methacrylate)-graft-poly(ethylene glycol) copolymers , 2010 .
[116] Guoqiang Li,et al. Thermomechanical characterization of a shape memory polymer based self-repairing syntactic foam , 2010 .
[117] Melt Rheological and Thermoresponsive Shape Memory Properties of HDPE/PA6/POE-g-MAH Blends , 2010 .
[118] N. Marcovich,et al. Nanocomposites made from cellulose nanocrystals and tailored segmented polyurethanes , 2010 .
[119] H. Tobushi,et al. Fabrication and Two-Way Deformation of Shape Memory Composite with SMA and SMP , 2010 .
[120] Ward Small,et al. Biomedical applications of thermally activated shape memory polymers. , 2009, Journal of materials chemistry.
[121] Jinlian Hu,et al. Study on the Properties of Core Spun Yarn and Fabrics of Shape Memory Polyurethane , 2010 .
[122] H. Jinlian,et al. Effect of structure parameters on memory properties of thermo-sensitive shape-memory woven fabrics , 2010 .
[123] M. Sugimoto,et al. Effect of concentration of photoactive chromophores on photomechanical properties of crosslinked azobenzene liquid-crystalline polymers , 2010 .
[124] Stuart J. Rowan,et al. Biomimetic mechanically adaptive nanocomposites , 2010 .
[125] M. Khine,et al. Tunable shrink-induced honeycomb microwell arrays for uniform embryoid bodies. , 2009, Lab on a chip.
[126] Wei Min Huang,et al. FORMATION OF COMBINED SURFACE FEATURES OF PROTRUSION ARRAY AND WRINKLES ATOP SHAPE-MEMORY POLYMER , 2009 .
[127] Luke P. Lee,et al. Tunable Nanowrinkles on Shape Memory Polymer Sheets , 2009 .
[128] Jinsong Leng,et al. Infrared light‐active shape memory polymer filled with nanocarbon particles , 2009 .
[129] Andreas Lendlein,et al. Kinetics and dynamics of thermally-induced shape-memory behavior of crosslinked short-chain branched polyethylenes , 2009 .
[130] Yang-Tse Cheng,et al. Revealing triple-shape memory effect by polymer bilayers. , 2009, Macromolecular rapid communications.
[131] Baohua Liu,et al. Biological Evaluations of a Smart Shape Memory Fabric , 2009 .
[132] Q. Meng,et al. A review of shape memory polymer composites and blends , 2009 .
[133] J. Hu,et al. Effect of soft segment crystallization and hard segment physical crosslink on shape memory function in antibacterial segmented polyurethane ionomers. , 2009, Acta biomaterialia.
[134] Scott J Hollister,et al. Poly(glycerol-dodecanoate), a biodegradable polyester for medical devices and tissue engineering scaffolds. , 2009, Biomaterials.
[135] Xin Lan,et al. Review of electro-active shape-memory polymer composite , 2009 .
[136] M. Meneghetti,et al. Self-healing at the nanoscale. , 2009, Nanoscale.
[137] J. Gautrot,et al. Shape Memory Polymers Based on Naturally-Occurring Bile Acids , 2009 .
[138] G. Assche,et al. Novel synthetic strategy toward shape memory polyurethanes with a well-defined switching temperature , 2009 .
[139] Jinlian Hu,et al. Novel moisture-sensitive shape memory polyurethanes containing pyridine moieties , 2009 .
[140] Xiaofan Luo,et al. Preparation and Characterization of Shape Memory Elastomeric Composites , 2009 .
[141] Jianping Han,et al. A smart hollow filament with thermal sensitive internal diameter , 2009 .
[142] K. M. Lee,et al. PLGA−POSS End-Linked Networks with Tailored Degradation and Shape Memory Behavior , 2009 .
[143] Jinlian Hu,et al. Supramolecular polyurethane networks containing pyridine moieties for shape memory materials , 2009 .
[144] P. Mather,et al. Shape Memory Polymer Research , 2009 .
[145] J. M. Cuevas,et al. Magneto-active shape memory composites by incorporating ferromagnetic microparticles in a thermo-responsive polyalkenamer , 2009 .
[146] Martin L. Dunn,et al. Photomechanics of light-activated polymers , 2009 .
[147] Aaron M Kushner,et al. A biomimetic modular polymer with tough and adaptive properties. , 2009, Journal of the American Chemical Society.
[148] Yu Xiao,et al. A biodegradable shape-memory nanocomposite with excellent magnetism sensitivity , 2009, Nanotechnology.
[149] Yanju Liu,et al. Qualitative separation of the effect of the solubility parameter on the recovery behavior of shape-memory polymer , 2009 .
[150] Yan Wang,et al. Infrared-Triggered Actuators from Graphene-Based Nanocomposites , 2009 .
[151] Ingrid A. Rousseau,et al. Facile tailoring of thermal transition temperatures of epoxy shape memory polymers , 2009 .
[152] Xin Lan,et al. A GLASS TRANSITION MODEL FOR SHAPE MEMORY POLYMER AND ITS COMPOSITE , 2009 .
[153] Heng Zhang,et al. A novel type of shape memory polymer blend and the shape memory mechanism , 2009 .
[154] A. Hartwig,et al. Shape memory polyurethanes cross-linked by surface modified silica particles , 2009 .
[155] Xin Lan,et al. Fiber reinforced shape-memory polymer composite and its application in a deployable hinge , 2009 .
[156] W. Kim,et al. Preparation of smectic layered polymer networks using dide chain liquid crystalline polymers having latent reactive monomeric units , 2009 .
[157] Jinlian Hu,et al. Shape memory effect of thermoplastic segmented polyurethanes with self-complementary quadruple hydrogen bonding in soft segments , 2009, The European physical journal. E, Soft matter.
[158] Patrick T. Mather,et al. Combined One-Way and Two-Way Shape Memory in a Glass-Forming Nematic Network , 2009 .
[159] Marc Behl,et al. One‐Step Process for Creating Triple‐Shape Capability of AB Polymer Networks , 2009 .
[160] W. Benett,et al. Thermomechanical properties, collapse pressure, and expansion of shape memory polymer neurovascular stent prototypes. , 2008, Journal of biomedical materials research. Part B, Applied biomaterials.
[161] Thorsten Pretsch,et al. Triple-shape properties of a thermoresponsive poly(ester urethane) , 2009 .
[162] T. Ikeda,et al. Photomobile polymer materials—various three-dimensional movements , 2009 .
[163] Andreas Lendlein,et al. Shape-Memory Polymer Composites , 2009 .
[164] Y. H. Kim,et al. Enhanced dispersion of carbon nanotubes in hyperbranched polyurethane and properties of nanocomposites , 2008, Nanotechnology.
[165] Jinlian Hu,et al. Shape memory fiber spun with segmented polyurethane ionomer , 2008 .
[166] Guoqiang Li,et al. A self-healing smart syntactic foam under multiple impacts , 2008 .
[167] T. Endo,et al. Anisotropic Photomechanical Response of Stretched Blend Film Made of Polycaprolactone-Polyvinyl Ether with Azobenzene Group as Side Chain , 2008 .
[168] A temperature-regulating fiber made of PEG-based smart copolymer , 2008 .
[169] Q. Meng,et al. A poly(ethylene glycol)-based smart phase change material , 2008 .
[170] Jinlian Hu,et al. Two-way shape memory effect in polymer laminates , 2008 .
[171] Ken Gall,et al. Effect of chemical structure and crosslinking density on the thermo-mechanical properties and toughness of (meth)acrylate shape-memory polymer networks , 2008 .
[172] Thao D. Nguyen,et al. A thermoviscoelastic model for amorphous shape memory polymers: Incorporating structural and stress relaxation , 2008 .
[173] M. Maugey,et al. Influence of surface functionalization on the thermal and electrical properties of nanotube-PVA composites , 2008 .
[174] Vratislav Kafka,et al. Shape memory polymers: A mesoscale model of the internal mechanism leading to the SM phenomena , 2008 .
[175] Alicia M. Ortega,et al. Strong, Tailored, Biocompatible Shape‐Memory Polymer Networks , 2008, Advanced functional materials.
[176] Bang-Jing Li,et al. A novel supramolecular shape memory material based on partial α-CD–PEG inclusion complex , 2008 .
[177] Jinlian Hu,et al. Preparation of polyurethane nanofibers by electrospinning , 2008 .
[178] Patrick T. Mather,et al. Polycaprolactone−POSS Chemical/Physical Double Networks , 2008 .
[179] N. Yoshie,et al. Two-Way Conversion between Hard and Soft Properties of Semicrystalline Cross-Linked Polymer , 2008 .
[180] Jinsong Leng,et al. Shape‐Memory Polymer in Response to Solution , 2008 .
[181] Wei Cai,et al. Shape-memory effect of poly (glycerol–sebacate) elastomer , 2008 .
[182] Jinlian Hu,et al. Electrospun polyurethane nanofibres having shape memory effect , 2008 .
[183] Jinlian Hu,et al. New Developments in Elastic Fibers , 2008 .
[184] Dimitris C. Lagoudas,et al. A constitutive theory for shape memory polymers. Part II: A linearized model for small deformations , 2008 .
[185] R. Kotek. Recent Advances in Polymer Fibers , 2008 .
[186] Thao D. Nguyen,et al. Finite deformation thermo-mechanical behavior of thermally induced shape memory polymers , 2008 .
[187] Dimitris C. Lagoudas,et al. A constitutive theory for shape memory polymers. Part I: Large deformations , 2008 .
[188] H. Finkelmann,et al. Main-Chain Liquid Crystalline Elastomers : Monomer and Cross-Linker Molecular Control of the Thermotropic and Elastic Properties , 2008 .
[189] Q. Meng,et al. Shape memory effect and reversible phase crystallization process in SMPU ionomer , 2008 .
[190] Kumbakonam R. Rajagopal,et al. A thermodynamic framework for the modeling of crystallizable shape memory polymers , 2008 .
[191] Sadhan C Jana,et al. Shape memory polymers and their nanocomposites: a review of science and technology of new multifunctional materials. , 2008, Journal of nanoscience and nanotechnology.
[192] S. Nutt,et al. Characterization of nanocellulose‐ reinforced shape memory polyurethanes , 2008 .
[193] D. Tyler,et al. Stimuli-Responsive Polymer Nanocomposites Inspired by the Sea Cucumber Dermis , 2008, Science.
[194] K. Hiraoka,et al. Shape‐Memory Effect Controlled by the Crosslinking Topology in Uniaxially‐Deformed Smectic C* Elastomers , 2008 .
[195] Q. Meng,et al. Self-organizing alignment of carbon nanotube in shape memory segmented fiber prepared by in situ polymerization and melt spinning , 2008 .
[196] Lia Stanciu,et al. Biotemplated synthesis of metallic nanoparticle chains on an α-synuclein fiber scaffold , 2008 .
[197] H. Jinlian,et al. The Performance Evaluation of the Woven Wool Fabrics Treated with Shape Memory Polymers , 2008 .
[198] D. Ratna,et al. Recent advances in shape memory polymers and composites: a review , 2008 .
[199] H. Radusch,et al. Multiple shape-memory behavior and thermal-mechanical properties of peroxide cross-linked blends of linear and short-chain branched polyethylenes , 2008 .
[200] P. Mather,et al. Two-way reversible shape memory in a semicrystalline network , 2008 .
[201] M. Maugey,et al. Shape and Temperature Memory of Nanocomposites with Broadened Glass Transition , 2007, Science.
[202] Dan Aoki,et al. SH-containing cellulose acetate derivatives: preparation and characterization as a shape memory-recovery material. , 2007, Biomacromolecules.
[203] Jinlian Hu,et al. Polycaprolactone-based shape memory segmented polyurethane fiber , 2007 .
[204] Qing-Qing Ni,et al. Electromagnetic interference shielding effect of nanocomposites with carbon nanotube and shape memory polymer , 2007 .
[205] Qing-Qing Ni,et al. Shape memory effect and mechanical properties of carbon nanotube/shape memory polymer nanocomposites , 2007 .
[206] Jinlian Hu,et al. Shape-memory polyurethane/multiwalled carbon nanotube fibers , 2007 .
[207] Jun Yu Li,et al. Shape‐Memory Effects in Polymer Networks Containing Reversibly Associating Side‐Groups , 2007 .
[208] Q. Meng,et al. Effect of molecular weight on shape memory behavior in polyurethane films , 2007 .
[209] Ward Small,et al. Prototype Fabrication and Preliminary In Vitro Testing of a Shape Memory Endovascular Thrombectomy Device , 2007, IEEE Transactions on Biomedical Engineering.
[210] Jinlian Hu,et al. Morphology and shape memory effect of segmented polyurethanes. Part І: With crystalline reversible phase , 2007 .
[211] Yen Chang,et al. Rapidly self-expandable polymeric stents with a shape-memory property. , 2007, Biomacromolecules.
[212] George K Stylios,et al. Shape memory training for smart fabrics , 2007 .
[213] Morphology, phase separation, thermal and mechanical property differences of shape memory fibres prepared by different spinning methods , 2007 .
[214] Ken Gall,et al. Molecular dynamics simulations of the shape-memory behaviour of polyisoprene , 2007 .
[215] Rudolf Zentel,et al. Monodomain Liquid Crystal Main Chain Elastomers by Photocrosslinking , 2007 .
[216] H. Liem,et al. A prerequisite for the effective transfer of the shape-memory effect to cotton fibers , 2007 .
[217] Jinlian Hu,et al. An electro-active shape memory fibre by incorporating multi-walled carbon nanotubes , 2007 .
[218] Ward Small,et al. Shape Memory Polymer Stent With Expandable Foam: A New Concept for Endovascular Embolization of Fusiform Aneurysms , 2007, IEEE Transactions on Biomedical Engineering.
[219] Jinlian Hu. Shape Memory Polymers and Textiles , 2007 .
[220] Y. C. Vili. Investigating Smart Textiles Based on Shape Memory Materials , 2007 .
[221] Robin Shandas,et al. Unconstrained recovery characterization of shape-memory polymer networks for cardiovascular applications. , 2007, Biomaterials.
[222] John Flanagan,et al. Development and Flight Testing of a Morphing Aircraft, the NextGen MFX-1 , 2007 .
[223] Patrick T. Mather,et al. Review of progress in shape-memory polymers , 2007 .
[224] Yan Liu,et al. Shape memory behavior of SMPU knitted fabric , 2007 .
[225] S. Im,et al. Novel copolyester-based ionomer for a shape-memory biodegradable material , 2007 .
[226] K. Urayama. Selected Issues in Liquid Crystal Elastomers and Gels , 2007 .
[227] Li Zhang,et al. Novel interpenetrating networks with shape-memory properties , 2007 .
[228] C. P. Buckley,et al. Novel triol-crosslinked polyurethanes and their thermorheological characterization as shape-memory materials , 2007 .
[229] Ashwini K. Agrawal,et al. Melt spun thermoresponsive shape memory fibers based on polyurethanes: Effect of drawing and heat-setting on fiber morphology and properties , 2007 .
[230] Jinlian Hu,et al. Effect of SSL and HSC on morphology and properties of PHA Based SMPU synthesized by bulk polymerization method , 2007 .
[231] Jinlian Hu,et al. Water vapor permeability of cotton fabrics coated with shape memory polyurethane , 2007 .
[232] Jean-Marie Lehn,et al. From supramolecular chemistry towards constitutional dynamic chemistry and adaptive chemistry. , 2007, Chemical Society reviews.
[233] Seyed Hassan Jafari,et al. Investigation and Modeling of Temperature Dependence Recovery Behavior of Shape‐Memory Crosslinked Polyethylene , 2007 .
[234] H. Fan,et al. The polyurethane membranes with temperature sensitivity for water vapor permeation , 2007 .
[235] Yanlei Yu,et al. Photomechanics of liquid-crystalline elastomers and other polymers. , 2007, Angewandte Chemie.
[236] Jinlian Hu,et al. Effect of cationic group content on shape memory effect in segmented polyurethane cationomer , 2007 .
[237] Ward Small,et al. A Shape Memory Polymer Dialysis Needle Adapter for the Reduction of Hemodynamic Stress Within Arteriovenous Grafts , 2006, IEEE Transactions on Biomedical Engineering.
[238] Marc Behl,et al. Actively moving polymers. , 2006, Soft matter.
[239] Jinlian Hu,et al. Smart polymer fibers with shape memory effect , 2006 .
[240] Ken Gall,et al. Toward a self-deploying shape memory polymer neuronal electrode , 2006, Journal of neural engineering.
[241] R. Langer,et al. Polymeric triple-shape materials , 2006, Proceedings of the National Academy of Sciences.
[242] Jinlian Hu,et al. Development of shape memory polyurethane fiber with complete shape recoverability , 2006 .
[243] Ching-ping Wong,et al. Mechanical and radiographic properties of a shape memory polymer composite for intracranial aneurysm coils , 2006 .
[244] Wei Min Huang,et al. Thermomechanical Behavior of a Polyurethane Shape Memory Polymer Foam , 2006 .
[245] Subrata Mondal,et al. Free volume and water vapor permeability of dense segmented polyurethane membrane , 2006 .
[246] Yanlei Yu,et al. Soft actuators based on liquid-crystalline elastomers. , 2006, Angewandte Chemie.
[247] Xiaotong Zheng,et al. Shape memory properties of poly(D,L-lactide)/hydroxyapatite composites. , 2006, Biomaterials.
[248] A. Schmidt. Electromagnetic Activation of Shape Memory Polymer Networks Containing Magnetic Nanoparticles , 2006 .
[249] A. Lendlein,et al. Polymers Move in Response to Light , 2006 .
[250] H. Luftmann,et al. Synthesis and characterization of two shape-memory polymers containing short aramid hard segments and poly(ε-caprolactone) soft segments , 2006 .
[251] X. Tao,et al. Preparation of Temperature-Sensitive Polyurethanes for Smart Textiles , 2006 .
[252] LaShanda T. J. Korley,et al. Effect of the degree of soft and hard segment ordering on the morphology and mechanical behavior of semicrystalline segmented polyurethanes , 2006 .
[253] Yiping Liu,et al. Finite strain 3D thermoviscoelastic constitutive model for shape memory polymers , 2006 .
[254] A. Lendlein,et al. Initiation of shape-memory effect by inductive heating of magnetic nanoparticles in thermoplastic polymers. , 2006, Proceedings of the National Academy of Sciences of the United States of America.
[255] Eugene M. Terentjev,et al. Self‐Assembled Shape‐Memory Fibers of Triblock Liquid‐Crystal Polymers , 2006 .
[256] Wei Min Huang,et al. Effects of moisture on the thermomechanical properties of a polyurethane shape memory polymer , 2006 .
[257] Yiping Liu,et al. Thermomechanics of shape memory polymers: Uniaxial experiments and constitutive modeling , 2006 .
[258] S. Mondal,et al. Segmented shape memory polyurethane and its water vapor transport properties , 2006 .
[259] Jinlian Hu,et al. Shape memory effect of PU ionomers with ionic groups on hard-segments , 2006 .
[260] K. Harris,et al. Large amplitude light-induced motion in high elastic modulus polymer actuators , 2005 .
[261] Nam Seo Goo,et al. Conducting Shape Memory Polyurethane‐Polypyrrole Composites for an Electroactive Actuator , 2005 .
[262] Zhu Yong,et al. Surface modification of cotton fabric by grafting of polyurethane , 2005 .
[263] J. Morshedian,et al. Modeling of Shape Memory Induction and Recovery in Heat-Shrinkable Polymers , 2005 .
[264] K. Harris,et al. Self-assembled polymer films for controlled agent-driven motion. , 2005, Nano letters.
[265] Kazuyuki Hiraoka,et al. Biaxial shape memory effect exhibited by monodomain chiral smectic C elastomers , 2005 .
[266] Shape Memory Effect of Bacterial Poly[(3-hydroxybutyrate)-co-(3-hydroxyvalerate)]† , 2005 .
[267] Ping Xie,et al. Liquid crystal elastomers, networks and gels: advanced smart materials , 2005 .
[268] C. Bowman,et al. Photoinduced Plasticity in Cross-Linked Polymers , 2005, Science.
[269] Jinlian Hu,et al. Crosslinked polyurethanes with shape memory properties , 2005 .
[270] Yiping Cao,et al. Novel Shape‐Memory Polymer with Two Transition Temperatures , 2005 .
[271] Jae Whan Cho,et al. Electrospun nonwovens of shape‐memory polyurethane block copolymers , 2005 .
[272] R. Langer,et al. Light-induced shape-memory polymers , 2005, Nature.
[273] Wei Min Huang,et al. Water-driven programmable polyurethane shape memory polymer: Demonstration and mechanism , 2005 .
[274] N. Goo,et al. Electroactive Shape‐Memory Polyurethane Composites Incorporating Carbon Nanotubes , 2005 .
[275] Jinlian Hu,et al. Dependency of the shape memory properties of a polyurethane upon thermomechanical cyclic conditions , 2005 .
[276] Andreas Lendlein,et al. Biodegradable, amorphous copolyester-urethane networks having shape-memory properties. , 2005, Angewandte Chemie.
[277] Xiuyuan Ni,et al. Block copolymer of trans-polyisoprene and urethane segment: Crystallization behavior and morphology , 2004 .
[278] P. Keller,et al. An Artificial Muscle with Lamellar Structure Based on a Nematic Triblock Copolymer , 2004 .
[279] Marco Giordano,et al. Enthalpy relaxation of polymers: comparing the predictive power of two configurational entropy models extending the AGV approach , 2004 .
[280] Guojun Liu,et al. Photoactive thermoplastic elastomers of azobenzene-containing triblock copolymers prepared through atom transfer radical polymerization , 2004 .
[281] Eckhard Quandt,et al. Recent developments in shape memory thin film technology , 2004 .
[282] J. Cho,et al. Water vapor permeability and mechanical properties of fabrics coated with shape‐memory polyurethane , 2004 .
[283] M. Shelley,et al. Fast liquid-crystal elastomer swims into the dark , 2004, Nature materials.
[284] Witold Sokolowski. Lightweight shape memory self-deployable structures for Gossamer applications , 2004 .
[285] R. Langer,et al. Designing materials for biology and medicine , 2004, Nature.
[286] Wei Min Huang,et al. On the effects of moisture in a polyurethane shape memory polymer , 2004 .
[287] R. Vaia,et al. Remotely actuated polymer nanocomposites—stress-recovery of carbon-nanotube-filled thermoplastic elastomers , 2004, Nature materials.
[288] X. Tao,et al. Effect of Crystal Melting on Water Vapor Permeability of Shape-Memory Polyurethane Film , 2004 .
[289] P. Mather,et al. Shape memory effect exhibited by smectic-C liquid crystalline elastomers. , 2003, Journal of the American Chemical Society.
[290] Guangming Zhu,et al. Shape-memory effects of radiation crosslinked poly(ϵ-caprolactone) , 2003 .
[291] J. Morshedian,et al. Preparation and properties of heat-shrinkable cross-linked low-density polyethylene , 2003 .
[292] Bin Li,et al. Light‐Driven Side‐On Nematic Elastomer Actuators , 2003 .
[293] Shape fixity and shape recovery of polyurethane shape-memory polymer foams , 2003 .
[294] H. J. Yan,et al. Influence of Processing Conditions on the Microstructure and Properties of Shape Memory Polyurethane Membranes , 2003 .
[295] M. Wagner,et al. Development of a polymer stent with shape memory effect as a drug delivery system , 2003, Journal of materials science. Materials in medicine.
[296] Patrick T. Mather,et al. Chemically Cross-Linked Polycyclooctene: Synthesis, Characterization, and Shape Memory Behavior , 2002 .
[297] R. Langer,et al. Biodegradable, Elastic Shape-Memory Polymers for Potential Biomedical Applications , 2002, Science.
[298] George K Stylios,et al. The Concept of aesthetic intelligence of textile fabrics and their application for interior and apparel , 2002 .
[299] Yong-Chan Chung,et al. Structure and Thermomechanical Properties of Polyurethane Block Copolymers with Shape Memory Effect , 2001 .
[300] Banahalli R. Ratna,et al. Liquid Crystal Elastomers with Mechanical Properties of a Muscle , 2001 .
[301] F. Kremer,et al. Giant lateral electrostriction in ferroelectric liquid-crystalline elastomers , 2001, Nature.
[302] Robert Langer,et al. AB-polymer networks based on oligo(epsilon-caprolactone) segments showing shape-memory properties. , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[303] Hisaaki Tobushi,et al. Thermomechanical Properties of Polyurethane-Shape Memory Polymer Foam , 2001 .
[304] Byung Kyu Kim,et al. Water Vapor Permeability of Shape Memory Polyurethane with Amorphous Reversible Phase , 2000 .
[305] Byung Kyu Kim,et al. Shape‐memory behavior of segmented polyurethanes with an amorphous reversible phase: The effect of block length and content , 2000 .
[306] J. Karger‐Kocsis,et al. Molecular dependence of the essential and non-essential work of fracture of amorphous films of poly(ethylene-2,6-naphthalate) (PEN) , 2000 .
[307] Patrick T. Mather,et al. Shape memory and nanostructure in poly(norbornyl-POSS) copolymers , 2000 .
[308] Ji-Myon Lee,et al. Shape memory polyurethane containing mesogenic moiety , 2000 .
[309] Feng-kui Li,et al. Shape memory effect of ethylene–vinyl acetate copolymers , 1999 .
[310] Zhong Lin Wang. Functional and Smart Materials , 2020 .
[311] Mao Xu,et al. Shape memory effect of polyethylene/nylon 6 graft copolymers , 1998 .
[312] Jin-Sing Lin,et al. Study on shape‐memory behavior of polyether‐based polyurethanes. II. Influence of soft‐segment molecular weight , 1998 .
[313] Jin-Sing Lin,et al. Study on shape‐memory behavior of polyether‐based polyurethanes. I. Influence of the hard‐segment content , 1998 .
[314] S. Miyazaki,et al. Shape memory materials and hybrid composites for smart systems: Part II Shape-memory hybrid composites , 1998 .
[315] S. Miyazaki,et al. Shape-memory materials and hybrid composites for smart systems: Part I Shape-memory materials , 1998 .
[316] Mao Xu,et al. Polyurethane ionomers having shape memory effects , 1998 .
[317] H. Finkelmann,et al. Director reorientation via stripe‐domains in nematic elastomers: influence of cross‐link density, anisotropy of the network and smectic clusters , 1998 .
[318] K. Sakurai,et al. Shape-memorizable styrene-butadiene block copolymer. I. Thermal and mechanical behaviors and structural change with deformation , 1997 .
[319] Hisaaki Tobushi,et al. Thermomechanical Constitutive Modeling in Shape Memory Polymer of Polyurethane Series , 1997 .
[320] Mao Xu,et al. Thermally stimulated shape-memory behavior of ethylene oxide-ethylene terephthalate segmented copolymer , 1997 .
[321] Mao Xu,et al. Studies on thermally stimulated shape memory effect of segmented polyurethanes , 1997 .
[322] Suresh Kumar,et al. Thermally recoverable crosslinked polyethylene , 1997 .
[323] F. Tüdős,et al. Comments on the interpretation of temperature dependence of processes in polymers , 1996 .
[324] Yoshihito Osada,et al. Shape memory behaviors of crosslinked copolymers containing stearyl acrylate , 1996 .
[325] Hisaaki Tobushi,et al. Thermomechanical properties in a thin film of shape memory polymer of polyurethane series , 1996, Smart Structures.
[326] Mao Xu,et al. Polyurethanes having shape memory effects , 1996 .
[327] Arun R. Srinivasa,et al. On the inelastic behavior of solids — Part 1: Twinning , 1995 .
[328] Y. Shirakawa,et al. Crystal transformation of styrene-butadiene block copolymer , 1994 .
[329] Toshisada Takahashi,et al. Crystal structure of polynorbornene , 1993 .
[330] S. Ota. Current status of irradiated heat-shrinkable tubing in Japan , 1981 .