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Volume 105, Issue 12
15 June 2009
Research Article| June 22 2009
J. Song;
J. Song a)
1Department of Mechanical and Aerospace Engineering,
University of Miami
, Coral Gables, Florida 33146,
USA
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Y. Huang;
Y. Huang
2Department of Civil and Environmental Engineering,
Northwestern University
, Evanston, Illinois 60208,
USA
3Department of Mechanical Engineering,
Northwestern University
, Evanston, Illinois 60208,
USA
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J. Xiao;
J. Xiao
3Department of Mechanical Engineering,
Northwestern University
, Evanston, Illinois 60208,
USA
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S. Wang;
S. Wang
3Department of Mechanical Engineering,
Northwestern University
, Evanston, Illinois 60208,
USA
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K. C. Hwang;
K. C. Hwang
4Department of Engineering Mechanics,
Tsinghua University
, Beijing 100084,
China
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H. C. Ko;
H. C. Ko
5Department of Materials Science and Engineering,
University of Illinois
, Urbana, Illinois 61801,
USA
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D.-H. Kim;
D.-H. Kim
5Department of Materials Science and Engineering,
University of Illinois
, Urbana, Illinois 61801,
USA
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M. P. Stoykovich;
M. P. Stoykovich
6Department of Chemical and Biological Engineering,
University of Colorado
, Boulder, Colorado 80309,
USA
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J. A. Rogers
J. A. Rogers b)
5Department of Materials Science and Engineering,
University of Illinois
, Urbana, Illinois 61801,
USA
7Department of Mechanical Science and Engineering, Department of Electrical and Computer Engineering, Department of Chemistry, and Frederick Seitz Materials Research Laboratory,
University of Illinois
, Urbana, Illinois 61801,
USA
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Author & Article Information
a)
Author to whom correspondence should be addressed. Electronic mail: jsong8@miami.edu.
b)
Electronic mail: jrogers@uiuc.edu.
J. Appl. Phys. 105, 123516 (2009)
Article history
Received:
February 17 2009
Accepted:
May 07 2009
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Citation
J. Song, Y. Huang, J. Xiao, S. Wang, K. C. Hwang, H. C. Ko, D.-H. Kim, M. P. Stoykovich, J. A. Rogers; Mechanics of noncoplanar mesh design for stretchable electronic circuits. J. Appl. Phys. 15 June 2009; 105 (12): 123516. https://doi.org/10.1063/1.3148245
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A noncoplanar mesh design that enables electronic systems to achieve large, reversible levels stretchability is studied theoretically and experimentally. The design uses semiconductor device islands and buckled thin interconnects on elastometric substrates. A mechanics model is established to understand the underlying physics and to guide the design of such systems. The predicted buckle amplitude agrees well with experiments within 5.5% error without any parameter fitting. The results also give the maximum strains in the interconnects and the islands, as well as the overall system stretchability and compressibility.
Topics
Display devices, Electronic circuits, Semiconductor devices, Dimensional analysis, Bending moment, Optical imaging, Elastic modulus, Semiconductor materials, Finite-element analysis
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© 2009 American Institute of Physics.
2009
American Institute of Physics
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