Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/biomimetic-4d-printing-WhU9RX8hNC
References (36)
-
I. Burgert, P. Fratzl (2009)
Actuation systems in plants as prototypes for bioinspired devicesPhilosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 367
-
K. Haraguchi, T. Takehisa (2002)
Nanocomposite Hydrogels: A Unique Organic–Inorganic Network Structure with Extraordinary Mechanical, Optical, and Swelling/De‐swelling PropertiesAdvanced Materials, 14
-
J. Smay, J. Cesarano, J. Lewis (2002)
Colloidal inks for directed assembly of 3-D periodic structuresLangmuir, 18
-
Samuel Felton, M. Tolley, E. Demaine, D. Rus, R. Wood (2014)
A method for building self-folding machinesScience, 345
-
Jinlian Hu, H. Meng, Guoqiang Li, S. Ibekwe (2012)
A review of stimuli-responsive polymers for smart textile applicationsSmart Materials and Structures, 21
-
Jun‐Hee Na, Arthur Evans, J. Bae, Maria Chiappelli, C. Santangelo, R. Lang, Thomas Hull, R. Hayward (2015)
Programming Reversibly Self‐Folding Origami with Micropatterned Photo‐Crosslinkable Polymer TrilayersAdvanced Materials, 27
-
Haiyi Liang, L. Mahadevan (2009)
The shape of a long leafProceedings of the National Academy of Sciences, 106
-
S. Josset, P. Orsolini, G. Siqueira, A. Tejado, P. Tingaut, T. Zimmermann (2014)
Energy consumption of the nanofibrillation of bleached pulp, wheat straw and recycled newspaper through a grinding processNordic Pulp & Paper Research Journal, 29
-
Faruk Oytun, M. Kahveci, Y. Yagcı (2013)
Sugar Overcomes Oxygen Inhibition in Photoinitiated Free Radical PolymerizationJournal of Polymer Science Part A, 51
-
K. Haraguchi, Kazutaka Murata, T. Takehisa (2012)
Stimuli-Responsive Nanocomposite Gels and Soft Nanocomposites Consisting of Inorganic Clays and Copolymers with Different Chemical AffinitiesMacromolecules, 45
-
Y. Forterre, J. Skotheim, J. Skotheim, J. Dumais, L. Mahadevan (2005)
How the Venus flytrap snapsNature, 433
-
B. Juniper (1974)
Plants in actionNature, 251
-
Christina Randall, E. Gultepe, D. Gracias (2012)
Self-folding devices and materials for biomedical applications.Trends in biotechnology, 30 3
-
E Reyssat, L Mahadevan (2009)
Hygromorphs: from pine cones to biomimetic bilayersJ. R. Soc. Interface, 6
-
S. Tibbits (2014)
4D Printing: Multi‐Material Shape ChangeArchitectural Design, 84
-
Haiyi Liang, L. Mahadevan (2011)
Growth, geometry, and mechanics of a blooming lilyProceedings of the National Academy of Sciences, 108
-
W. Doorn, U. Meeteren (2003)
Flower opening and closure: a review.Journal of experimental botany, 54 389
-
R. Fernandes, D. Gracias (2012)
Self-folding polymeric containers for encapsulation and delivery of drugs.Advanced drug delivery reviews, 64 14
-
H. Aharoni, E. Sharon, R. Kupferman (2014)
Geometry of thin nematic elastomer sheets.Physical review letters, 113 25
-
K. Kuribayashi-Shigetomi, H. Onoe, S. Takeuchi (2012)
Cell Origami: Self-Folding of Three-Dimensional Cell-Laden Microstructures Driven by Cell Traction ForcePLoS ONE, 7
-
Randall Erb, J. Sander, Roman Grisch, A. Studart (2013)
Self-shaping composites with programmable bioinspired microstructuresNature Communications, 4
-
C. Modes, K. Bhattacharya, M. Warner (2011)
Gaussian curvature from flat elastica sheetsProceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 467
-
Yael Abraham, C. Tamburu, E. Klein, J. Dunlop, P. Fratzl, U. Raviv, R. Elbaum (2012)
Tilted cellulose arrangement as a novel mechanism for hygroscopic coiling in the stork's bill awnJournal of The Royal Society Interface, 9
-
L. Ionov (2013)
Bioinspired Microorigami by Self‐Folding Polymer FilmsMacromolecular Chemistry and Physics, 214
-
Stephen Timoshenko (1925)
Analysis of Bi-Metal ThermostatsJournal of the Optical Society of America, 11
-
D. Ratna, J. Karger‐Kocsis (2008)
Recent advances in shape memory polymers and composites: a reviewJournal of Materials Science, 43
-
C. Gauss (2012)
General Investigations of Curved Surfaces of 1827 and 1825Nature, 66
-
S. Armon, Efi Efrati, R. Kupferman, E. Sharon (2011)
Geometry and Mechanics in the Opening of Chiral Seed PodsScience, 333
-
J. Wicherts, Wendy Johnson (2009)
Group differences in the heritability of items and test scoresProceedings of the Royal Society B: Biological Sciences, 276
-
Y. Liu, Julie Boyles, J. Genzer, M. Dickey (2012)
Self-folding of polymer sheets using local light absorptionSoft Matter, 8
-
Xin Yong, O. Kuksenok, A. Balazs (2015)
Modeling free radical polymerization using dissipative particle dynamicsPolymer, 72
-
Qi Ge, H. Qi, M. Dunn (2013)
Active materials by four-dimension printingApplied Physics Letters, 103
-
H. Thérien‐Aubin, Zi Wu, Z. Nie, E. Kumacheva (2013)
Multiple shape transformations of composite hydrogel sheets.Journal of the American Chemical Society, 135 12
-
J. Lewis (2006)
Direct Ink Writing of 3D Functional MaterialsAdvanced Functional Materials, 16
-
K. Haraguchi, Huan Li, Kaori Matsuda, T. Takehisa, E. Elliott (2005)
Mechanism of Forming Organic/Inorganic Network Structures during In-situ Free-Radical Polymerization in PNIPA−Clay Nanocomposite HydrogelsMacromolecules, 38
-
B. Compton, J. Lewis (2014)
3D‐Printing of Lightweight Cellular CompositesAdvanced Materials, 26
- Publisher
- Springer Journals
- Copyright
- Copyright © 2016 by Nature Publishing Group
- Subject
- Materials Science; Materials Science, general; Optical and Electronic Materials; Biomaterials; Nanotechnology; Condensed Matter Physics
- ISSN
- 1476-1122
- eISSN
- 1476-4660
- DOI
- 10.1038/nmat4544
- Publisher site
- See Article on Publisher Site
Abstract
Printed hydrogel composites with plant-inspired architectures dynamically change shape on immersion in water to yield prescribed complex morphologies.
Journal
Nature Materials – Springer Journals
Published: Jan 25, 2016