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Progress toward Dynamic Color-Responsive “Chameleon” Fiber Systems

Published online by Cambridge University Press:  31 January 2011

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Abstract

Fibers and coatings with unique optical, magnetic, and electrical properties are being widely studied for use in both military and commercial applications. New materials are being developed in this research effort, with unique tunable coloration properties across the visible spectrum as well as spanning the infrared and ultraviolet region of the electromagnetic spectrum. These dynamic color-responsive “chameleon” fiber systems will have wide application to a variety of new textile products. These new materials will also allow penetration into markets normally not dependent on textile materials. New markets, such as the optical communication and electronics market areas, will include bio-sensors, detector applications for textile materials, and “smart materials” that can change their color, hue, or depth of shade by application of a static or dynamic electric field for applications such as smart uniforms.

Type
Research Article
Copyright
Copyright © Materials Research Society 2003

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References

1.Collins, G.E. and Buckley, L.J., Synth. Met. 78 (1996) p. 93.CrossRefGoogle Scholar
2.Gregory, R.V., Kimbrell, W.C., and Kuhn, H.H., Synth. Met. 28 (1–2) (1989) p. 823.CrossRefGoogle Scholar
3.Home Page of SensaTex Inc., www.sensatex.com, a joint venture with the Georgia Tech Research Institute (accessed June 2003).Google Scholar
4.Hum, A.P.J., Comput. Networks 35 (2001) p. 391.CrossRefGoogle Scholar
5.Tao, X., Tang, L., Du, W., and Choy, C., Compos. Sci. Technol. 60 (2000) p. 657.CrossRefGoogle Scholar
6.El-Sherif, M.A. and MacDiarmid, A.G., J. Intell. Mater. Sys. Struct. 11 (2000) p. 407.CrossRefGoogle Scholar
7.Verghese, M.M., Ram, M.K., Vardhan, H., Malhotra, B.D., and Ashraf, S.M., Polymer 38 (1997) p. 1625.CrossRefGoogle Scholar
8.Jones, W. and March, N.H., Theoretical Solid State Physics, Vol. 2 (Dover Publications, New York, 1973) p. 791.Google Scholar
9.Heavens, O.S., Optical Properties of Thin Solid Films (Dover Publications, New York, 1991) p. 53.Google Scholar
10.Friend, R.H., Gymer, R.W., Holmes, A.B., Burroughes, J.H., Marks, R.N., Taliani, C., Bradley, D.D.C., Dos Santos, D.A., Brédas, J.L., Lögdlund, M., and Salaneck, W.R., Nature 397 (1999) p. 121.CrossRefGoogle Scholar
11.Gregory, R.V., Handbook of Conductive Polymers, 2nd ed., Chapter 18, edited by Skotheim, T., Elsenbaumer, R., and Reynolds, J. (Marcel Dekker, New York, 1997).Google Scholar
12.Brown, P.J., Monkman, A.P., Tian, Y., and Yang, J. (private communication).Google Scholar
13.Thompson, B.C., Schottland, P., Zong, K., and Reynolds, J.R., Chem. Mater. 12 (2000) p. 1563.CrossRefGoogle Scholar
14.Pepitone, M.F., Hardaker, S.S., and Gregory, R.V., Chem. Mater. 15 (2003) p. 557.CrossRefGoogle Scholar
15.Burroughes, J.H., Bradley, D.D.C., Brown, A.R., Marks, R.N., Mackey, K., Friend, R.H., Burns, P.L., and Holmes, A.B., Nature 347 (1990) p. 539.CrossRefGoogle Scholar
16.Frolov, S.V., Fujii, A., Chinn, D., Vardeny, Z.V., Yoshino, K., and Gregory, R.V., Appl. Phys. Lett. 72 (22) (1998) p. 2811.CrossRefGoogle Scholar
17.Köhler, A., Wilson, J.S., and Friend, R., Adv. Mater. 14 (10) (2002) p. 701.3.0.CO;2-4>CrossRefGoogle Scholar
18.Liu, T. and Samuels, R.J., J. Polym. Sci., Part B: Polym. Phys. 39 (2001) p. 2481.CrossRefGoogle Scholar
19.Hardaker, S.S., Eaiprasertsak, K., Yon, J., Gregory, R.V., Tessema, G.X., Ou, R., Cha, C., and Samuels, R.J., in Semiconducting Polymers: Applications, Properties, and Synthesis, edited by Hsieh, B.R. and Wei, Y. (American Chemical Society, Washington, DC, 1999) p. 48;CrossRefGoogle Scholar
Chacko, A.P., Hardaker, S.S., Gregory, R.V., and Hanks, T.W., Polymer 39 (14) (1998) p. 3289.CrossRefGoogle Scholar