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Programmable competitive binding

Programmable competitive binding news & views 4. Demaine, E., Demaine, M., Hart, V., Price, G. & Tachi, T. could make elaborate nanomaterial Talal Al-Mulla and Markus J. Buehler are in the Graph Combinator. 27, 377–397 (2011). structures. Also, the approach holds Laboratory for Atomistic and Molecular Mechanics 5. Bern, M. & Hayes, B. Proc. Seventh Annu. ACM-SIAM Symp. promise for algorithms not related to (LAMM), Department of Civil and Environmental Discrete Algorithms 175–183 (1996). origami. For example, computer-aided Engineering, Massachusetts Institute of Technology, 6. Silverberg, J. et al. Nature Mater. 14, 389–393 (2015). 7. Ma, J. & You, Z. i Th n Wall Struct . 73, 198–206 (2013). engineering design can benefit from 77 Massachusetts Avenue, Room 1-290, Cambridge, 8. Tu, H., Jiang, H., Yu, H. & Xu, Y. Appl. Phys. Lett. improved origami modelling to enable the Massachusetts 02139, USA. 103, 241902 (2013). creation of strong yet light, reconfigurable e-mail: mbuehler@mit.edu 9. Xu, Z. & Buehler, M. J. ACS Nano 4, 3869–3876 (2010). structures for applications in civil 10. Lee, C., Wei, X., Kysar, J. & Hone, J. Science 321, 385–388 (2008). References engineering . Origami constructs with 1. Rothemund, P. Nature 440, 297–302 (2006). 11. Wonoto, N., Baerlecken, D., Gentry, R. & Swarts, M. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Nature Materials Springer Journals

Programmable competitive binding

Nature Materials , Volume 14 (4) – Mar 24, 2015

Programmable competitive binding

Abstract

news & views 4. Demaine, E., Demaine, M., Hart, V., Price, G. & Tachi, T. could make elaborate nanomaterial Talal Al-Mulla and Markus J. Buehler are in the Graph Combinator. 27, 377–397 (2011). structures. Also, the approach holds Laboratory for Atomistic and Molecular Mechanics 5. Bern, M. & Hayes, B. Proc. Seventh Annu. ACM-SIAM Symp. promise for algorithms not related to (LAMM), Department of Civil and Environmental Discrete Algorithms 175–183 (1996)....
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References (3)

Publisher
Springer Journals
Copyright
Copyright © 2015 by Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved.
Subject
Materials Science; Materials Science, general; Optical and Electronic Materials; Biomaterials; Nanotechnology; Condensed Matter Physics
ISSN
1476-1122
eISSN
1476-4660
DOI
10.1038/nmat4265
Publisher site
See Article on Publisher Site

Abstract

news & views 4. Demaine, E., Demaine, M., Hart, V., Price, G. & Tachi, T. could make elaborate nanomaterial Talal Al-Mulla and Markus J. Buehler are in the Graph Combinator. 27, 377–397 (2011). structures. Also, the approach holds Laboratory for Atomistic and Molecular Mechanics 5. Bern, M. & Hayes, B. Proc. Seventh Annu. ACM-SIAM Symp. promise for algorithms not related to (LAMM), Department of Civil and Environmental Discrete Algorithms 175–183 (1996). origami. For example, computer-aided Engineering, Massachusetts Institute of Technology, 6. Silverberg, J. et al. Nature Mater. 14, 389–393 (2015). 7. Ma, J. & You, Z. i Th n Wall Struct . 73, 198–206 (2013). engineering design can benefit from 77 Massachusetts Avenue, Room 1-290, Cambridge, 8. Tu, H., Jiang, H., Yu, H. & Xu, Y. Appl. Phys. Lett. improved origami modelling to enable the Massachusetts 02139, USA. 103, 241902 (2013). creation of strong yet light, reconfigurable e-mail: mbuehler@mit.edu 9. Xu, Z. & Buehler, M. J. ACS Nano 4, 3869–3876 (2010). structures for applications in civil 10. Lee, C., Wei, X., Kysar, J. & Hone, J. Science 321, 385–388 (2008). References engineering . Origami constructs with 1. Rothemund, P. Nature 440, 297–302 (2006). 11. Wonoto, N., Baerlecken, D., Gentry, R. & Swarts, M.

Journal

Nature MaterialsSpringer Journals

Published: Mar 24, 2015

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