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Enhanced Performance of Symmetric Double Layer Capacitor by Flexible Binder-free SWCNT Membrane Electrodes

Published online by Cambridge University Press:  10 April 2013

Danhao Ma
Affiliation:
Department of Energy Engineering, The Pennsylvania State University, University Park, PA 16802. U.S.A.
James Kalupson
Affiliation:
Materials Research Institute, The Pennsylvania State University, University Park, PA 16802, U.S.A.
Pralav Shetty
Affiliation:
Department of Mechanical and Nuclear Engineering, The Pennsylvania State University, University Park, PA 16802, U.S.A.
Kofi Adu
Affiliation:
Materials Research Institute, The Pennsylvania State University, University Park, PA 16802, U.S.A. Department of Physics, The Pennsylvania State University, Altoona College, Altoona, PA 16601, U.S.A.
Ramakrishnan Rajagopalan
Affiliation:
Materials Research Institute, The Pennsylvania State University, University Park, PA 16802, U.S.A.
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Abstract

We present results on an aqueous symmetric double layer electrochemical capacitor (EDLC) constructed with a flexible binder-free single wall carbon (SWCNTs) membrane as electrodes. The capacitors were cycled from 0 to 1V @ 10 A/g for 10,000 cycles with 99.9% coulombic efficiency and 94% energy efficiency, and 100% depth of discharge. The power performance of the aqueous symmetric SWCNTs membrane capacitor is almost 100 –1000 times better than commercial non-aqueous EDLC capacitors.

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Articles
Copyright
Copyright © Materials Research Society 2013

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References

Iijima, S., Nature, 1991. 354(6348): p. 5658.CrossRef
An, K.H., Kim, W.S., Park, Y.S., Choi, Y.C., Lee, S.M., Chung, D.C., Bae, D.J., Lim, S.C., Lee, Y.H., Adv. Mater. 2001 13, :p 497500.3.0.CO;2-H>CrossRef
Hughes, M., Shaffer, M.S.P., Renouf, A.C., Singh, C., Chen, G.Z., Fray, J., Windle, A.H., Adv. Mater., 2002, 14, :p 382385.3.0.CO;2-Y>CrossRef
Hughes, M., Chen, G.Z., Shaffer, M.S.P., Fray, D.J., Windle, A.H., Chem. Mater., 2002, 14,:p16101613.CrossRef
An, K.H., Kim, W.S., Park, Y.S., Moon, J.M., Bae, D.J., Lim, S.C., Lee, Y.S., Lee, Y.H., Adv. Function. Mater., 2001, 11, :p 387392.3.0.CO;2-G>CrossRef
Liu, C.Y., Bard, A.J., Wudl, F., Weitz, I., Heath, J.R., Electrochem. Solid State Lett. 1999, 2, :p 577578.CrossRef
Barisci, J.N., Wallace, G.G., Baughman, R.H., J. Electroanal. Chem., 2000, 488, :p 9298.CrossRef
Diederich, L., Barborini, E., Piseri, P., Podesta, A., Milani, P., Schneuwly, A., Gallay, R., Appl. Phys. Lett., 1999, 75, :p 26622664.CrossRef
Frackowiak, E., Metenier, K., Bertagna, V., Beguin, F., Appl. Phys. Lett., 2000, 77, :p 24212423.CrossRef
Claye, A.S., Fischer, J.E., Huffman, C.B., Rinzler, A.G., Smalley, R.E., J. Electrochem. Soc., 2000, 147, :p 28452852.CrossRef
Frackowiak, E., Gautier, S., Gaucher, H., Bonnamy, S., Beguin, F., Carbon, 1999, 37, :p 6169.CrossRef
Gao, B., Kleinhammes, A., Tang, X.P., Bower, C., Fleming, L., Wu, Y., Zhou, O., Chem. Phys. Lett., 1999, 307, :p153157.CrossRef
Nutzenadel, C., Zuttel, A., Chartouni, D., Schlapbach, L., Electrochem. Solid State Lett., 1999, 2, :p 3032.CrossRef
Zhao, J; Buldum, A ; Han, J; Lu, JP, Physical Review Letters, 2000. 85(8): p. 17061709.CrossRef
Udomvech, A., Kerdcharoen, T., and Osotchan, T., Chemical Physics Letters, 2005. 406(1-3): p 161166.CrossRef
Du, C.S. and Pan, N; Journal of Power Sources, 2006. 160(2): p. 14871494.CrossRef
Niu, C.M., Sichel, E.K., Hoch, R., Moy, D., Tennent, H., Appl. Phys. Lett. 70 (1997) 14801482.CrossRef
Yoon, BJ; Jeong, SH; Lee, KH; Kim, HS ; Park, CG ; Han, JH; Chemical Physics Letters, 2004. 388(1-3): p. 170174.CrossRef
Chen, JH; Li, WZ; Wang, DZ; Yang, SX; Wen, JG; Ren, ZF Carbon, 2002. 40(8): p. 11931197.CrossRef
An, KH; Jeon, KK; Kim, WS; Park, YS; Lim, SC; Bae, DJ ; Lee, YH Journal of the Korean Physical Society, 2001. 39: p. S511S517.
Ng, SH; Wang, J; Guo, ZP; Wang, GX; Liu, HK, Electrochimica Acta, 2005. 51(1): p. 2328.CrossRef
Futaba, DN; Hata, K; Yamada, T ; Hiraoka, T Hayamizu, Y ; Kakudate, Y ; Tanaike, O ; Hatori, H ; Yumura, M.; Nature Materials, 2006. 5(12): p. 987994 CrossRef

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Enhanced Performance of Symmetric Double Layer Capacitor by Flexible Binder-free SWCNT Membrane Electrodes
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