Stretchable electronics on elastomeric substrates requires fragile and brittle device materials to be placed on stiff, mechanical distinct subcircuit islands. We deposited a diamondlike carbon (DLC) film at room temperature on a silicone substrate by pulsed laser ablation, and patterned the film into an array of 200×200μm2 islands. When the substrate was uniaxially stretched to a strain of 25%, the islands remained adherent to the substrate and only deformed by 5%, while the exposed substrate stretched by more than 30%. A row of 11 DLC islands interconnected with gold stretchable metallization maintained end-to-end electrical conduction during a mechanical cycle to 20% tensile strain. This demonstration of electrically interconnected stiff islands on silicone illustrates two important steps toward fully integrated, elastically stretchable electronics.

1.
V. J.
Lumelsky
,
M. S.
Shur
, and
S.
Wagner
,
IEEE Sens. J.
1
,
41
(
2001
).
2.
S. P.
Lacour
,
J. E.
Jones
,
S.
Wagner
,
T.
Li
, and
Z.
Suo
,
Proc. IEEE
93
,
1459
(
2005
).
3.
T.
Someya
,
Y.
Kato
,
T.
Sekitani
,
S.
Iba
,
Y.
Noguchi
,
Y.
Murase
,
H.
Kawaguchi
, and
T.
Sakurai
,
Proc. Natl. Acad. Sci. U.S.A.
102
,
12321
(
2005
).
4.
D. S.
Gray
,
J.
Tien
, and
C. S.
Chen
,
Adv. Mater. (Weinheim, Ger.)
16
,
393
(
2004
).
5.
M.
Maghribi
,
J.
Hamilton
,
D.
Polla
,
K.
Rose
,
T.
Wilson
, and
P.
Krulevitch
,
Second Annual International IEEE-EMBS Special Topic Conference on Microtechnologies in Medicine and Biology
(
IEEE
,
New York
,
2002
), pp.
80
83
.
6.
S. P.
Lacour
,
C.
Tsay
,
S.
Wagner
,
Z.
Yu
, and
B.
Morrison
, III
,
Proceedings of the Fourth IEEE Conference on Sensors
(
IEEE
,
New York
,
2005
).
7.
G. P.
Collins
,
Sci. Am.
291
(
2
),
74
(
2004
).
8.
Z.
Suo
,
E. Y.
Ma
,
H.
Gleskova
, and
S.
Wagner
,
Appl. Phys. Lett.
74
,
1177
(
1999
).
9.
T.
Li
,
Z.
Huang
,
Z.
Suo
,
S. P.
Lacour
, and
S.
Wagner
,
Appl. Phys. Lett.
85
,
3435
(
2004
).
10.
T.
Li
,
Z. Y.
Huang
,
Z. C.
Xi
,
S. P.
Lacour
,
S.
Wagner
, and
Z.
Suo
,
Mech. Mater.
37
,
261
(
2005
).
11.
T.
Li
,
Z.
Suo
,
S. P.
Lacour
, and
S.
Wagner
,
J. Mater. Res.
20
,
3274
(
2005
).
12.
Z.
Suo
,
Encyclopedia of Materials: Science and Technology
(
Elsevier Science
,
Oxford
,
2001
), pp.
3290
3296
.
13.
P. I.
Hsu
,
M.
Huang
,
Z.
Xi
,
S.
Wagner
,
Z.
Suo
, and
J. C.
Sturm
,
J. Appl. Phys.
95
,
705
(
2004
).
14.
P. I.
Hsu
,
R.
Bhattacharya
,
H.
Gleskova
,
M.
Huang
,
Z.
Xi
,
Z.
Suo
,
S.
Wagner
, and
J. C.
Sturm
,
Appl. Phys. Lett.
81
,
1723
(
2003
).
15.
R.
Bhattacharya
,
S.
Wagner
,
Y.-J.
Tung
,
J.
Esler
, and
M.
Hack
,
Proc. IEEE
93
,
1273
(
2005
).
16.
R. J.
Narayan
,
Appl. Surf. Sci.
245
,
420
(
2005
).
17.
B.
Bhushan
,
Diamond Relat. Mater.
8
,
1985
(
1999
).
18.
R. J.
Narayan
 et al.,
Adv. Mater. Process.
163
,
39
(
2005
).
19.
S. P.
Lacour
,
S.
Wagner
,
Z.
Huang
, and
Z.
Suo
,
Appl. Phys. Lett.
82
,
2404
(
2003
).
20.
S. P.
Lacour
,
J.
Jones
,
S.
Wagner
, and
Z.
Suo
,
IEEE Electron Device Lett.
25
,
179
(
2004
).
21.
J. N.
Lee
,
C.
Park
, and
G. M.
Whitesides
,
Anal. Chem.
75
,
6544
(
2003
).
22.
C.
Chambers
,
S. P.
Lacour
,
S.
Wagner
,
Z.
Suo
, and
Z.
Huang
,
Mater. Res. Soc. Symp. Proc.
769
,
H10
3
(
2003
).
23.
N.
Bowden
,
S.
Brittain
,
A. G.
Evans
,
J. W.
Hutchinson
, and
G. M.
Whitesides
,
Nature (London)
393
,
146
(
1998
).
24.
A. A.
Ogwu
,
T.
Coyle
,
T. I. T.
Okpalugo
,
P.
Kearney
,
P. D.
Maguire
, and
J. A. D.
McLaughlin
,
Acta Mater.
51
,
3455
(
2003
).
25.
S. P.
Lacour
,
S.
Wagner
, and
Z.
Suo
,
Mater. Res. Soc. Symp. Proc.
795
,
U
6
9
1
(
2003
).
You do not currently have access to this content.