Simulation of blood particle separation in a trapezoidal microfluidic device by acoustic force
Nowadays, the importance of the blood particles separation is undeniable in medical fields
and there are different sorts of separation methods accordingly. Acoustic cell separation is …
and there are different sorts of separation methods accordingly. Acoustic cell separation is …
Recent advances in microfluidic technologies for separation of biological cells
L Sun, W Yang, S Cai, Y Chen, H Chu, H Yu… - Biomedical …, 2020 - Springer
Cell separation has always been a key topic in academic research, especially in the fields of
medicine and biology, due to its significance in diagnosis and treatment. Accurate, high …
medicine and biology, due to its significance in diagnosis and treatment. Accurate, high …
Integrated microfluidic platform with electrohydrodynamic focusing and a carbon-nanotube-based field-effect transistor immunosensor for continuous, selective, and …
Electrokinetic technologies such as AC electro-osmosis (EO) and dielectrophoresis (DEP)
have been used for effective manipulation of bacteria to enhance the sensitivity of an assay …
have been used for effective manipulation of bacteria to enhance the sensitivity of an assay …
Cell detachment and label-free cell sorting using modulated surface acoustic waves (SAWs) in droplet-based microfluidics
A Bussonnière, Y Miron, M Baudoin, OB Matar… - Lab on a Chip, 2014 - pubs.rsc.org
We present a droplet-based surface acoustic wave (SAW) system designed to viably detach
biological cells from a surface and sort cell types based on differences in adhesion strength …
biological cells from a surface and sort cell types based on differences in adhesion strength …
Surface acoustic wave manipulation of bioparticles
M Qi, D Dang, X Yang, J Wang, H Zhang, W Liang - Soft Matter, 2023 - pubs.rsc.org
The introduction of surface acoustic waves (SAWs) into lab-on-a-chip microfluidic systems
has contributed to the development of a new cutting-edge technology—SAW-based …
has contributed to the development of a new cutting-edge technology—SAW-based …
High-gradient magnetophoretic bead trapping for enhanced electrochemical sensing and particle manipulation
Magnetic particles are routinely used in many biochemical techniques. As such, the
manipulation of these particles is of paramount importance for proper detection and assay …
manipulation of these particles is of paramount importance for proper detection and assay …
[HTML][HTML] Acoustic streaming in second-order fluids
PK Das, AD Snider, VR Bhethanabotla - Physics of Fluids, 2020 - pubs.aip.org
In this article, inner acoustic streaming for second-order fluids has been studied analytically
by employing asymptotic expansions for a thin Stokes layer and low acoustic Mach number …
by employing asymptotic expansions for a thin Stokes layer and low acoustic Mach number …
Active cell capturing for organ-on-a-chip systems: a review
M Bayareh - Biomedical Engineering/Biomedizinische Technik, 2022 - degruyter.com
Abstract Organ-on-a-chip (OOC) is an emerging technology that has been proposed as a
new powerful cell-based tool to imitate the pathophysiological environment of human …
new powerful cell-based tool to imitate the pathophysiological environment of human …
Self-aligned interdigitated transducers for acoustofluidics
The surface acoustic wave (SAW) is effective for the manipulation of fluids and particles at
microscale. The current approach of integrating interdigitated transducers (IDTs) for SAW …
microscale. The current approach of integrating interdigitated transducers (IDTs) for SAW …
A reconfigurable and portable acoustofluidic system based on flexible printed circuit board for the manipulation of microspheres
R Mikhaylov, MS Martin, P Dumcius… - Journal of …, 2021 - iopscience.iop.org
Acoustofluidic devices based on surface acoustic waves (SAWs) have been widely applied
in biomedical research for the manipulation and separation of cells. In this work, we develop …
in biomedical research for the manipulation and separation of cells. In this work, we develop …