Winky Lap Wing Hau scite author profile

Winky Lap Wing Hau

3Publications

95Citation Statements Received

36Citation Statements Given

How they've been cited

120

How they cite others

Affiliations

University of Freiburg, Hong Kong University of Science and Technology, University of Hong Kong

Publications

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Surface-chemistry technology for microfluidics

Hau

Trau

Sucher

et al. 2003

J. Micromech. Microeng.

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A new technology to pattern surface charges, either negatively or positively, using a standard photolithography process is introduced. A positively charged poly(allylamine hydrochloride) (PAH) layer is coated onto a negatively charged silicon oxide surface by electrostatic self-assembly (ESA). Combined with photolithography in a lift-off-based process, several different surface charge patterns were successfully produced. Due to definition of the pattern by photolithography, no limitations in the pattern geometry exist. Any surface charge pattern can be created to enable fine control of fluid motion in microfluidic devices. Physical properties of this PAH layer were characterized. The generation of a bi-directional shear flow was demonstrated by using alternating longitudinal surface charge pattern with a single driving force, i.e. an externally applied electric field inside a microchannel.

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Electrokinetic generation of microvortex patterns in a microchannel liquid flow

Hau

Lee

et al. 2003

J. Micromech. Microeng.

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The technology developed for micropatterning the electric surface charge to be negative, positive or neutral enables the realization of complex liquid flows in simple microchannels. A commercial CFD code is utilized to numerically simulate a variety of electrokinetically-generated liquid flows in a straight and uniform microchannel due to non-uniform surface charge distribution under an externally applied, steady electric field. We present design methodologies to electrokinetically drive vortical flows in any desired direction. In particular, we investigate surface charge patterns required to generate single or multi, co-rotating or counter-rotating, in-plane or out-of-plane vortices. Finally, in view of its potential application to microscale mixing, we discuss a surface charge pattern that can give rise to streamwise vorticity.

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Experimental investigation of electrokinetically generated in-plane vorticity in a microchannel

Hau¹,

Lee²,

Lee³

et al.

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