Polyacrylamide hydrogels containing salt as electrolyte have been used as highly stretchable transparent electrodes in flexible electronics, but those hydrogels are easy to dry out due to water evaporation. Targeted, we try to enhance water retention capacity of polyacrylamide hydrogel by introducing highly hydratable salts into the hydrogel. These hydrogels show enhanced water retention capacity in different level. Specially, polyacrylamide hydrogel containing high content of lithium chloride can retain over 70% of its initial water even in environment with relative humidity of only 10% RH. The excellent water retention capacities of these hydrogels will make more applications of hydrogels become possible.
References
1.
S.
Bauer
, Nat. Mater.
12
, 871
(2013
).2.
C.
Wang
, D.
Hwang
, Z.
Yu
, K.
Takei
, J.
Park
, T.
Chen
, B.
Ma
, and A.
Javey
, Nat. Mater.
12
, 899
(2013
).3.
S.
Kim
, C.
Laschi
, and B.
Trimmer
, Trends Biotechnol.
31
, 287
(2013
).4.
I. A.
Anderson
, T. A.
Gisby
, T. G.
McKay
, B. M.
O'Brien
, and E. P.
Calius
, J. Appl. Phys.
112
, 041101
(2012
).5.
H. R.
Choi
, K.
Jung
, S.
Ryew
, J. D.
Nam
, J.
Jeon
, J. C.
Koo
, and K.
Tanie
, IEEE/ASME Trans. Mechatron.
10
, 581
(2005
).6.
P.
Brochu
and Q. B.
Pei
, Macromol. Rapid Commun.
31
, 10
(2010
).7.
F.
Carpi
, G.
Frediani
, S.
Turco
, and D. De
Rossi
, Adv. Funct. Mater.
21
, 4152
(2011
).8.
S.-i.
Son
, D.
Pugal
, T.
Hwang
, H. R.
Choi
, J. C.
Koo
, Y.
Lee
, K.
Kim
, and J.-D.
Nam
, Appl. Opt.
51
, 2987
(2012
).9.
S.
Shian
, R. M.
Diebold
, and D. R.
Clarke
, Opt. Express
21
, 8669
(2013
).10.
R.
Pelrine
, R.
Kornbluh
, Q. B.
Pei
, and J.
Joseph
, Science
287
, 836
(2000
).11.
R.
Pelrine
, R.
Kornbluh
, J.
Joseph
, R.
Heydt
, Q. B.
Pei
, and S.
Chiba
, Mater. Sci. Eng., C
11
, 89
(2000
).12.
R.
Shankar
, T. K.
Ghosh
, and R. J.
Spontak
, Soft Matter
3
, 1116
(2007
).13.
F.
Carpi
, P.
Chiarelli
, A.
Mazzoldi
, and D. De
Rossi
, Sens. Actuators, A
107
, 85
(2003
).14.
L.
Hu
, W.
Yuan
, P.
Brochu
, G.
Gruner
, and Q.
Pei
, Appl. Phys. Lett.
94
, 161108
(2009
).15.
V.
Scardaci
, R.
Coull
, and J. N.
Coleman
, Appl. Phys. Lett.
97
, 023114
(2010
).16.
M.
Bozlar
, C.
Punckt
, S.
Korkut
, J.
Zhu
, C. C.
Foo
, Z.
Suo
, and I. A.
Aksay
, Appl. Phys. Lett.
101
, 091907
(2012
).17.
S.
Rosset
, M.
Niklaus
, P.
Dubois
, and H. R.
Shea
, Adv. Funct. Mater.
19
, 470
(2009
).18.
D. C.
Hyun
, M.
Park
, C.
Park
, B.
Kim
, Y.
Xia
, J. H.
Hur
, J. M.
Kim
, J. J.
Park
, and U.
Jeong
, Adv. Mater.
23
, 2946
(2011
).19.
S.
Michel
, B. T. T.
Chu
, S.
Grimm
, F. A.
Nueesch
, A.
Borgschulte
, and D. M.
Opris
, J. Mater. Chem.
22
, 20736
(2012
).20.
Z.
Yu
, Q.
Zhang
, L.
Li
, Q.
Chen
, X.
Niu
, J.
Liu
, and Q.
Pei
, Adv. Mater.
23
, 664
(2011
).21.
W.
Hu
, X.
Niu
, L.
Li
, Q.
Chen
, S.
Yun
, Z.
Yu
, and Q.
Pei
, Nanotechnology
23
, 344002
(2012
).22.
C.
Keplinger
, J.-Y.
Sun
, C. C.
Foo
, P.
Rothemund
, G. M.
Whitesides
, and Z.
Suo
, Science
341
, 984
(2013
).23.
B.
Chen
, J. J.
Lu
, C. H.
Yang
, J.
Zhou
, Y. M.
Chen
, and Z.
Suo
, ACS Appl. Mater. Interfaces
6
, 7840
(2014
).24.
R. H.
Stokes
and R. A.
Robinson
, J. Am. Chem. Soc.
70
, 1870
(1948
).25.
G. C.
Jian
, Electrolyte Solutions and Ion Reactions
(China Youth Press
, Beijing
, 1985
), pp. 1
–11
.26.
W. H.
Rodebush
, J. Am. Chem. Soc.
40
, 1204
(1918
).27.
E.
Glueckauf
, Trans. Faraday Soc.
51
, 1235
(1955
).© 2014 AIP Publishing LLC.
2014
AIP Publishing LLC
You do not currently have access to this content.
