论文信息 - A coupled electro-hydrodynamic numerical modeling of droplet actuation by electrowetting

A coupled electro-hydrodynamic numerical modeling of droplet actuation by electrowetting

A numerical study is performed to investigate droplet actuation under electrowetting forces. A volume of fluid, VOF, technique is applied to track the 3D interface. The Laplace equation with proper boundary conditions is solved to predict the time- and space-dependent electric field in the domain. The droplet actuation with respect to the powered electrode, the contact angle distribution at the three-phase line, and the droplet morphology are studied. Additionally, other issues such as droplet velocity, contact angle hysteresis, and droplet location with respect to the powered electrode (switching frequency) are investigated to characterize the droplet behavior between two parallel substrates.

[1] Jun Zeng,et al. Principles of droplet electrohydrodynamics for lab-on-a-chip. , 2004, Lab on a chip.

[2] Kamran Mohseni,et al. Behaviour of a Moving Droplet under Electrowetting Actuation: Numerical Simulation , 2008 .

[3] J. Brackbill,et al. A continuum method for modeling surface tension , 1992 .

[4] E. Ruckenstein,et al. Microscopic interpretation of the dependence of the contact angle on roughness. , 2005, Langmuir : the ACS journal of surfaces and colloids.

[5] R. Fair,et al. Electrowetting-based actuation of droplets for integrated microfluidics. , 2002, Lab on a chip.

[6] S. Cho,et al. Low voltage electrowetting-on-dielectric , 2002 .

[7] C. Kim,et al. Surface-tension-driven microactuation based on continuous electrowetting , 2000, Journal of Microelectromechanical Systems.

[8] F. Harlow,et al. Numerical Calculation of Time‐Dependent Viscous Incompressible Flow of Fluid with Free Surface , 1965 .

[9] S. Chandra,et al. On a three-dimensional volume tracking model of droplet impact , 1999 .

[10] B. Shapiro,et al. Equilibrium behavior of sessile drops under surface tension, applied external fields, and material variations , 2003 .

[11] V. G. Ferreira,et al. The MAC method , 2008 .

[12] Neelesh A. Patankar,et al. On the Modeling of Hydrophobic Contact Angles on Rough Surfaces , 2003 .

[13] Kamran Mohseni,et al. Electrostatic force calculation for an EWOD-actuated droplet , 2007 .