%0 Generic
%A Kislaya, Ankur
%D 2022
%T Data underlying the research on particle manipulation using hydrodynamic forcing, using a-priori particle manipulation algorithm and without Proportional-Integration-Derivative (PID) control.
%U https://data.4tu.nl/articles/dataset/Data_underlying_the_research_on_particle_manipulation_using_hydrodynamic_forcing_using_a-priori_particle_manipulation_algorithm_and_without_Proportional-Integration-Derivative_PID_control_/19574959/1
%R 10.4121/19574959.v1
%K Particle manipulation
%K particle sorting
%K particle separation device
%K Particle interaction
%K Particle Trapping
%X <p>The reseach objective is to present a microfluidic approach to achieve the dynamic control of particle pathlines within a flow through microfluidic device.  Our approach combines the design of a flow-through microfluidic flow cell with the ability to manipulate the streamlines of the flow and an optimization procedure to find a priori optimal particle path-lines. The experimental raw images were recorded with a sCMOS camera (PCO) with a pixel pitch of 6.5 μm. The camera was mounted on a microscope (Nikon Eclipse Ti) with a 1x objective. The acquisition frequency was 5 Hz corresponding to an average in-plane displacement of 4-6 pixels between two consecutive recordings. The zip file contains the raw images and the MATLAB script of the following experiments by using hydrodynamic forcing only:</p>
<p>1. Single particle deflection upward</p>
<p>2. Single particle deflection downward</p>
<p>3. Single particle trap</p>
<p>4. Two particles separation</p>
<p>5. Two particles coming closer to eachother</p>
<p>6. Two particles interchanging their position </p>
%I 4TU.ResearchData