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References (28)
-
T. Ware, K. Hearon, Alexander Lonnecker, K. Wooley, D. Maitland, W. Voit (2012)
Triple-Shape Memory Polymers Based on Self-Complementary Hydrogen Bonding.Macromolecules, 45 2
-
R. Mohr, K. Kratz, T. Weigel, M. Lucka-Gabor, M. Moneke, A. Lendlein (2006)
Initiation of shape-memory effect by inductive heating of magnetic nanoparticles in thermoplastic polymers.Proceedings of the National Academy of Sciences of the United States of America, 103 10
-
Yingwu Luo, Yunlong Guo, Xiang-Jie Gao, Bo-geng Li, Tao Xie (2013)
A General Approach Towards Thermoplastic Multishape‐Memory Polymers via Sequence Structure DesignAdvanced Materials, 25
-
Haibao Lu, J. Gou (2012)
Fabrication and electroactive responsive behavior of shape–memory nanocomposite incorporated with self-assembled multiwalled carbon nanotube nanopaperPolymers for Advanced Technologies, 23
-
Xiaofan Luo, P. Mather (2010)
Triple‐Shape Polymeric Composites (TSPCs)Advanced Functional Materials, 20
-
J. Zotzmann, M. Behl, D. Hofmann, A. Lendlein (2010)
Reversible Triple‐Shape Effect of Polymer Networks Containing Polypentadecalactone‐ and Poly(ε‐caprolactone)‐SegmentsAdvanced Materials, 22
-
Zhen Wang, C. Hansen, Qi Ge, Sajjad Maruf, D. Ahn, H. Qi, Yifu Ding (2011)
Programmable, Pattern‐Memorizing Polymer SurfaceAdvanced Materials, 23
-
L. Sun, W. Huang, C. Wang, Y. Zhao, Z. Ding, H. Purnawali (2011)
Optimization of the shape memory effect in shape memory polymersJournal of Polymer Science Part A, 49
-
M. Behl, M. Razzaq, A. Lendlein (2010)
Multifunctional Shape‐Memory PolymersAdvanced Materials, 22
-
Jinlian Hu, Yong Zhu, Huahua Huang, Jing Lu (2012)
Recent advances in shape–memory polymers: Structure, mechanism, functionality, modeling and applicationsProgress in Polymer Science, 37
-
Shaojun Chen, Jinlian Hu, C. Yuen, L. Chan, H. Zhuo (2010)
Triple shape memory effect in multiple crystalline polyurethanesPolymers for Advanced Technologies, 21
-
T. Xie (2010)
Tunable polymer multi-shape memory effectNature, 464
-
L. Lao, R. Ramanujan (2004)
Magnetic and hydrogel composite materials for hyperthermia applicationsJournal of Materials Science: Materials in Medicine, 15
-
T. Xie, Xingcheng Xiao, Yang-Tse Cheng (2009)
Revealing triple-shape memory effect by polymer bilayers.Macromolecular rapid communications, 30 21
-
M. Razzaq, M. Behl, A. Lendlein (2012)
Memory-effects of magnetic nanocomposites.Nanoscale, 4 20
-
U. Kumar, K. Kratz, M. Heuchel, M. Behl, A. Lendlein (2011)
Shape‐Memory Nanocomposites with Magnetically Adjustable Apparent Switching TemperaturesAdvanced Materials, 23
-
Tao Gong, Wenbing Li, Hongmei Chen, Lin Wang, Shijun Shao, Shaobing Zhou (2012)
Remotely actuated shape memory effect of electrospun composite nanofibers.Acta biomaterialia, 8 3
-
U. Kumar, K. Kratz, W. Wagermaier, M. Behl, A. Lendlein (2010)
Non-contact actuation of triple-shape effect in multiphase polymer network nanocomposites in alternating magnetic fieldJournal of Materials Chemistry, 20
-
Kai Yu, T. Xie, J. Leng, Yifu Ding, H. Qi (2012)
Mechanisms of multi-shape memory effects and associated energy release in shape memory polymersSoft Matter, 8
-
Greg Vialle, M. Prima, Erica Hocking, K. Gall, H. Garmestani, T. Sanderson, S. Arzberger (2009)
Remote activation of nanomagnetite reinforced shape memory polymer foamSmart Materials and Structures, 18
-
Suk‐kyun Ahn, R. Kasi (2011)
Exploiting Microphase‐Separated Morphologies of Side‐Chain Liquid Crystalline Polymer Networks for Triple Shape Memory PropertiesAdvanced Functional Materials, 21
-
Zhengwang He, N. Satarkar, T. Xie, Yang-Tse Cheng, J. Hilt (2011)
Remote Controlled Multishape Polymer Nanocomposites with Selective Radiofrequency ActuationsAdvanced Materials, 23
-
T. Weigel, Reinhard Mohr, A. Lendlein (2009)
Investigation of parameters to achieve temperatures required to initiate the shape-memory effect of magnetic nanocomposites by inductive heatingSmart Materials and Structures, 18
-
J. Cuevas, R. Rubio, L. Germán, J. Laza, J. Vilas, Matilde Rodríguez, L. León (2012)
Triple-shape memory effect of covalently crosslinked polyalkenamer based semicrystalline polymer blendsSoft Matter, 8
-
D. Ratna, J. Karger‐Kocsis (2008)
Recent advances in shape memory polymers and composites: a reviewJournal of Materials Science, 43
-
D. Bradley (2010)
Gen F ScientistsMaterials Today, 13
-
I. Kolesov, H. Radusch (2008)
Multiple shape-memory behavior and thermal-mechanical properties of peroxide cross-linked blends of linear and short-chain branched polyethylenesExpress Polymer Letters, 2
-
Yong-chan Chung, J. Choi, M. Choi, B. Chun (2012)
Characterization of Flexibly Linked Shape Memory Polyurethane Composite with Magnetic PropertyJournal of Thermoplastic Composite Materials, 25
- Publisher
- Wiley
- Copyright
- Copyright © 2013 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim
- ISSN
- 0935-9648
- eISSN
- 1521-4095
- DOI
- 10.1002/adma.201301521
- pmid
- 23893389
- Publisher site
- See Article on Publisher Site
Abstract
A triple‐shape effect is created for a segmented device consisting of an active component encapsulated in a highly flexible polymer network. Segments with the same composition but different interface areas can be recovered independently either at specific field strengths (Hsw) during inductive heating, at a specific time during environmentally heating, or at different airflow during inductive heating at constant H. Herein the type of heating method regulates the sequence order.
Journal
Advanced Materials – Wiley
Published: Oct 11, 2013