Nhut Tran‐Minh scite author profile

Clogging failure is common for microfilters in living cells concentration; for instance, the CaSki Cell-lines (Epidermoid cervical carcinoma cells) utilizing the flat membrane structure. In order to avoid the clogging, counter-flow concentration units with turbine blade-like micropillar are proposed in microconcentrator design. Due to the unusual geometrical-profiles and extraordinary microfluidic performance, the cells blocking does not occur even at permeate entrances. A counter-flow microconcentrator was designed, with both processing layer and collecting layer arranged in terms of the fractal based honeycomb structure. The device was optimized by coupling Artificial Neuron Network (ANN) and Computational Fluid Dynamics (CFD). The excellent concentration ratio of a final microconcentrator was presented in numerical results.

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A novel design of hollow microneedle for blood sample collection

Le-Thanh

Tran‐Minh

Karlsen

2014

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Nhut Tran‐Minh

An efficient passive planar micromixer with ellipse-like micropillars for continuous mixing of human blood

An effective passive micromixer with shifted trapezoidal blades using wide Reynolds number range

Design and optimization of non-clogging counter-flow microconcentrator for enriching epidermoid cervical carcinoma cells

A novel design of hollow microneedle for blood sample collection

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