Add to ORKGIn this paper, the hydrodynamic mechanism of moving particles in laminar micro-channel flows was numerically investigated. A hydrodynamic criterion was proposed to determine whether particles in channel flows can form a focusing pattern or not. A simple formula was derived to demonstrate how the focusing position varies with Reynolds number and particle size. Based on this proposed criterion, a possible hydrodynamic mechanism was discussed as to why the particles would not be focused if their sizes were too small or the channel Reynolds number was too low. The Re-¿ curve (Re, ¿ respectively represents the channel-based Reynolds number and the particle\u27s diameter scaled by the channel) was obtained using the data fitting with a least squa...
Focusing and separation of particles such as cells at high throughput is extremely attractive for bi...
The precise control and manipulation of small particles in the microscale using inertial flow has va...
The behavior of confined particles in microchannels at moderate Reynolds number has received much at...
In this paper, the hydrodynamic mechanism of moving particles in laminar micro-channel flows was num...
This paper investigates hydrodynamic focusing inside a microchannel. Hydrodynamic focusing has a num...
Focusing of sample cells or particles to a single-particle stream in miniature flow cytometers is ac...
The inertial focusing effect of particles in microchannels shows application potential in engineerin...
Inertial microfluidics has emerged as an important tool for manipulating particles and cells. For a ...
Inertial microfluidics has become one of the emerging topics due to potential applications such as p...
The specific equilibrium distance from the channel axis for particles in a laminar flow (Poiseuille ...
Focusing and separation of particles such as cells at high throughput is extremely attractive for bi...
Hydrodynamic focusing of particles is numerically studied by the immersed boundary – lattice Boltzma...
Transport of small particles, of micrometer and sub-micrometer size, by fluid occurs in many technol...
Size based separation and identification of particles in microfluidics through purely hydrodynamic m...
In this study, inertial focusing phenomenon was investigated, which can be used as a passive method ...
Focusing and separation of particles such as cells at high throughput is extremely attractive for bi...
The precise control and manipulation of small particles in the microscale using inertial flow has va...
The behavior of confined particles in microchannels at moderate Reynolds number has received much at...
In this paper, the hydrodynamic mechanism of moving particles in laminar micro-channel flows was num...
This paper investigates hydrodynamic focusing inside a microchannel. Hydrodynamic focusing has a num...
Focusing of sample cells or particles to a single-particle stream in miniature flow cytometers is ac...
The inertial focusing effect of particles in microchannels shows application potential in engineerin...
Inertial microfluidics has emerged as an important tool for manipulating particles and cells. For a ...
Inertial microfluidics has become one of the emerging topics due to potential applications such as p...
The specific equilibrium distance from the channel axis for particles in a laminar flow (Poiseuille ...
Focusing and separation of particles such as cells at high throughput is extremely attractive for bi...
Hydrodynamic focusing of particles is numerically studied by the immersed boundary – lattice Boltzma...
Transport of small particles, of micrometer and sub-micrometer size, by fluid occurs in many technol...
Size based separation and identification of particles in microfluidics through purely hydrodynamic m...
In this study, inertial focusing phenomenon was investigated, which can be used as a passive method ...
Focusing and separation of particles such as cells at high throughput is extremely attractive for bi...
The precise control and manipulation of small particles in the microscale using inertial flow has va...
The behavior of confined particles in microchannels at moderate Reynolds number has received much at...