Self-Alignment of Silicon Microparts on a Hexadecane-Water Interface by Surface Tension
作者: Caroline Elizabeth Liberti
DOI:
关键词:
摘要: ix Chapter 1: Introduction 1 1.1 Fundamentals of Self-Assembly 3 1.2 Significance Surface Tension in 5 1.3 Thesis Outline 6 2: Background 8 2.1 and Capillarity 2.1.1 The Laplace Equation 10 2.1.1.1 for a Spherical Interface 2.1.1.2 General Arbitrarily Curved 11 2.1.1.3 Axisymmetric Fluid Interfaces 12 2.1.2 Young‟s 13 2.1.3 Lateral Capillary Forces 15 2.1.3.1 Immersion Force 18 2.1.3.2 Flotation 20 2.1.3.3 24 2.1.3.4 Approximation Experimental 25 2.2 Previous Work 30 3: Geometric Model Fluid-Fluid 35 4: Design 41 4.1 Basic Description 4.2 Measured Quantities 43 4.3 Components 45 4.3.1 Rods 4.3.2 Microparts 47
参考文章(21)
Peter A. Kralchevsky, Vesselin N. Paunov, Nikolai D. Denkov, Kuniaki Nagayama, Capillary Image Forces Journal of Colloid and Interface Science. ,vol. 167, pp. 47- 65 ,(1994) , 10.1006/JCIS.1994.1332
P.A. Basore, J.M. Gee, Crystalline-silicon photovoltaics: necessary and sufficient world conference on photovoltaic energy conversion. ,vol. 2, pp. 2254- 2257 ,(1994) , 10.1109/WCPEC.1994.521674
Orlin D. Velev, Nikolai D. Denkov, Vesselin N. Paunov, Peter A. Kralchevsky, Kuniaki Nagayama, Direct measurement of lateral capillary forces Langmuir. ,vol. 9, pp. 3702- 3709 ,(1993) , 10.1021/LA00036A056
P Chen, S.S Susnar, A.W Neumann, Thermodynamics of liquid films and film tension measurements International Journal of Mineral Processing. ,vol. 56, pp. 75- 97 ,(1999) , 10.1016/S0301-7516(98)00043-X
Shu-Ang Zhou, On forces in microelectromechanical systems International Journal of Engineering Science. ,vol. 41, pp. 313- 335 ,(2003) , 10.1016/S0020-7225(02)00207-0
C Gary Tsai, C Max Hsieh, J Andrew Yeh, None, Self-alignment of microchips using surface tension and solid edge Sensors and Actuators A-physical. ,vol. 139, pp. 343- 349 ,(2007) , 10.1016/J.SNA.2007.04.019
Johan Dalin, Jürgen Wilde, Azeem Zulfiqar, Panos Lazarou, Aris Synodinos, Nikolaos Aspragathos, Electrostatic attraction and surface-tension-driven forces for accurate self-assembly of microparts Microelectronic Engineering. ,vol. 87, pp. 159- 162 ,(2010) , 10.1016/J.MEE.2009.06.033
Venkataragavalu Sivagnanam, Abdeljalil Sayah, Martin A.M. Gijs, Bead-based single protein micro-array realized through electrostatic self-assembly of carboxylated beads Microelectronic Engineering. ,vol. 85, pp. 1355- 1358 ,(2008) , 10.1016/J.MEE.2007.12.043
Shi-yan Song, Li-jia Pan, Yun Li, Yi Shi, Lin Pu, Rong Zhang, You-dou Zheng, Self-assembly of Polyaniline: Mechanism Study Chinese Journal of Chemical Physics. ,vol. 21, pp. 187- 192 ,(2008) , 10.1088/1674-0068/21/02/187-192
Jose L. Cruz-Campa, Murat Okandan, Paul J. Resnick, Peggy Clews, Tammy Pluym, Robert K. Grubbs, Vipin P. Gupta, David Zubia, Gregory N. Nielson, Microsystems enabled photovoltaics: 14.9% efficient 14 μm thick crystalline silicon solar cell Solar Energy Materials and Solar Cells. ,vol. 95, pp. 551- 558 ,(2011) , 10.1016/J.SOLMAT.2010.09.015