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ASME 2011 International Mechanical Engineering Congress and Exposition, IMECE 2011
Volumn 11, Issue , 2011, Pages 639-642
Ultrasonic excitation induced Wenzel to Cassie transition
Author keywords

[No Author keywords available]
Indexed keywords

EID: 84869194178     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1115/imece2011-64391     Document Type: Conference Paper
Times cited : (1)
References (10)
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  • 2
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    • Boreyko, J. B., & Chen, C. (2009). Restoring superhydrophobicity of lotus leaves with vibration-induced dewetting. Physical Review Letters, 103(17)
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  • 3
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    • Resonance Cassieâ'Wenzel wetting transition for horizontally vibrated drops deposited on a rough surface
    • doi:10.1021/la7016374
    • Bormashenko, E., Pogreb, R., Whyman, G., & Erlich, M. (2007). Resonance Cassieâ'Wenzel wetting transition for horizontally vibrated drops deposited on a rough surface. Langmuir, 23(24), 12217-12221. doi:10.1021/la7016374
    • (2007) Langmuir , vol.23 , Issue.24 , pp. 12217-12221
    • Bormashenko, E.1    Pogreb, R.2    Whyman, G.3    Erlich, M.4
  • 4
    • 33750299118 scopus 로고    scopus 로고
    • Reversible electrowetting of vertically aligned superhydrophobic carbon nanofibers
    • doi:10.1021/la061139b
    • Dhindsa, M. S., Smith, N. R., Heikenfeld, J., Rack, P. D., Fowlkes, J. D., Doktycz, M. J.,.. Simpson, M. L. (2006). Reversible electrowetting of vertically aligned superhydrophobic carbon nanofibers. Langmuir, 22(21), 9030-9034. doi:10.1021/la061139b
    • (2006) Langmuir , vol.22 , Issue.21 , pp. 9030-9034
    • Dhindsa, M.S.1    Smith, N.R.2    Heikenfeld, J.3    Rack, P.D.4    Fowlkes, J.D.5    Doktycz, M.J.6    Simpson, M.L.7
  • 5
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    • Cassie-wenzel and wenzel-cassie transitions on immersed superhydrophobic surfaces under hydrostatic pressure
    • Forsberg, P., Nikolajeff, F., & Karlsson, M. (2011). Cassie-wenzel and wenzel-cassie transitions on immersed superhydrophobic surfaces under hydrostatic pressure. Soft Matter, 7(1), 104-109.
    • (2011) Soft Matter , vol.7 , Issue.1 , pp. 104-109
    • Forsberg, P.1    Nikolajeff, F.2    Karlsson, M.3
  • 6
    • 46649094387 scopus 로고    scopus 로고
    • Electrowetting on superhydrophobic surfaces: Present status and prospects
    • Heikenfeld, J., & Dhindsa, M. (2008). Electrowetting on superhydrophobic surfaces: Present status and prospects. Journal of Adhesion Science and Technology, 22, 319-334.
    • (2008) Journal of Adhesion Science and Technology , vol.22 , pp. 319-334
    • Heikenfeld, J.1    Dhindsa, M.2
  • 8
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    • Reversible Wettingâ'Dewetting transitions on electrically tunable superhydrophobic nanostructured surfaces
    • doi:10.1021/la7008557
    • Krupenkin, T. N., Taylor, J. A., Wang, E. N., Kolodner, P., Hodes, M., & Salamon, T. R. (2007). Reversible Wettingâ'Dewetting transitions on electrically tunable superhydrophobic nanostructured surfaces. Langmuir, 23(18), 9128-9133. doi:10.1021/la7008557
    • (2007) Langmuir , vol.23 , Issue.18 , pp. 9128-9133
    • Krupenkin, T.N.1    Taylor, J.A.2    Wang, E.N.3    Kolodner, P.4    Hodes, M.5    Salamon, T.R.6
  • 9
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    • Electrowetting-induced dewetting transitions on superhydrophobic surfaces
    • doi:10.1021/la2027412
    • Kumari, N., & Garimella, S. V. (2011). Electrowetting-induced dewetting transitions on superhydrophobic surfaces. Langmuir, null-null. doi:10.1021/la2027412
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    • Kumari, N.1    Garimella, S.V.2
  • 10
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    • Wetting on nanoporous alumina surface: Transition between wenzel and cassie states controlled by surface structure
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    • Ran, C., Ding, G., Liu, W., Deng, Y., & Hou, W. (2008). Wetting on nanoporous alumina surface: Transition between wenzel and cassie states controlled by surface structure. Langmuir, 24(18), 9952-9955. doi:10.1021/la801461j
    • (2008) Langmuir , vol.24 , Issue.18 , pp. 9952-9955
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* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.