表面科學於操控微滴及微粒的應用 --- PART 5 結論及參考資料

結論

越來越多場合需要應用到微滴及微粒的操控，對於這些微小的物質，表面效應便顯得極具影響力。本文中介紹的電潤濕電子紙與電潤濕變焦透鏡，便是典型的表面效應 應用例子。藉由發明者的巧思，將簡單的電潤濕表面現象轉化成商機無限的特色商品。此外，光致電滲流及光電鑷子的應用，則是結合不同功能，將光及電的效應整 合在表面科學應用中。利用跨界的組合，簡化原有的機構，並強化原有的功能。如何巧妙的運用這些表面作用力，並將其應用在實務的領域上，將會是表面科學的新 里程。

參考文獻

[1].    Shamai, R., Andelman, D., Berge, B. and Hayes, R., ”Water, electricity, and between…On electrowetting and its applications”, The Royal Society of Chemistry : soft matter, 4, 38-45(2008).

[2].    Heikenfeld, J., Drzaic, P., Yeo, J.S.k, Koch, T., “Review Paper: A critical review of the present and future prospects for electronic paper”, Journal of the SID 19/2, 129-156(2011).

[3].    Hayes, R.A. and Feenstra, B.J., “Video-Speed Electronic Paper Based on Electrowetting”, Nature, 425, 383-385(2003)

[4].    Gorman, C.B., Biebuyck, H.A., and Whitesides, G.M., "Control of the Shape of Liquid Lenses on a Modified Gold Surface using an Applied Electrical Potential Across a Self-Assembled Monolayer," Langmuir 11, 2242-2246 (1995).

[5].    Ashkin, A., “Acceleration and trapping of particles by radiation pressure,”  Phys. Rev. Lett.  24, 156(1970).

[6].    Heikenfeld, J., Zhou, K., Kreit, E., Raj,B., Yang, S., Sun, B., Milarcik, A., Clapp, L. and Schwartz, R., “Electrofluidic displays using Young–Laplace transposition of brilliant pigment dispersions”, Nature Photonics, 3, 292-296(2009).

[7].    Yang, S., Zhou, K., Kreit, E. and Heikenfeld, J., “High reflectivity electrofluidic pixels with zero-power grayscale operation”, Applied Physics Letters, 97, 143501, 2010.

[8].    Dahm, R.,「透視水晶體的生與死」, 科學人, 第33期, 11月號, 遠流出版社(2004)

[9].    Ren, H.W., Fox, D., Anderson, P. A., Wu, B., and Wu, S.T., "Tunable-focus liquid lens controlled using a servo motor," Optics Express 14, 8031-8036 (2006).

[10]. Dong, L., Agarwal, A.K., Beebe, D. J., and Jiang, H.R., "Adaptive liquid microlens activated by stimuli-responsive hydrogels," Nature 442, 551-554 (2006). 

[11]. Ren, H. and Wu, S.T., "Tunable-focus liquid microlens array using dielectrophoretic effect," Optics Express 16, 2646-2652 (2008).

[12]. Kuiper, S. and Hendriks, B. H. W., “Variable-focus liquid lens for miniature cameras,” Applied Physics Letters, 85(7), 1128-1130(2004).

[13]. Yang, S.M., Harishchandra, P.T., Yu, T.M., Liu, M.H., Hsu, L., and Liu, C.H., "Concentration of magnetic beads utilizing light-induced electro-osmosis flow",IEEE Transactions on Magnetics, vol. 47, no. 10, October 2011

[14]. Yang, S.M., Harishchandra, P.T., Chu, Y.J., Yu, T.M., Liu, M.H., Hsu, L., and Liu, C.H., “Optical-driven vortex as a microparticle concentrator”, The 16th International Conference on Solid-State Sensors, Actuators and Microsystems (Transducer 2011), pp. 242-245, June 5-9, 2011, Beijing, China.

[15]. Yang, S.M., Yu, T.M., Huang, H.P., Ku, M.Y., Hsu, L., and Liu, C.H., “Dynamic manipulation and patterning of microparticles and cells by using TiOPc-based optoelectronic dielectrophoresis,” Optics Letters, Vol. 35, No. 12, 1959, 2010