The application of microfluidic technology to manipulate cells or biological particles is becoming one of the rapidly growing areas, and various microarray trapping devices have recently been designed for high throughput single-cell analysis and manipulation. In this paper, we design a double-slit microfluidic chip for hydrodynamic cell trapping at the single-cell level, which maintains a high capture ability. The geometric effects on flow behaviour are investigated in detail for optimizing chip architecture, including the flow velocity, the fluid pressure, and the equivalent stress of cells. Based on the geometrical parameters optimized, the double-slit chip enhances the capture of HeLa cells and the drug experiment verifies the feasibilit...
A new cell-trapping method for single cell analysis devices at a very rapid flow rate, is designed, ...
Microfluidic technology has been applied widely for separating and trapping various type of cells. T...
The isolation of single biological cells and their further cultivation in dedicated arrayed chambers...
The application of microfluidic technology to manipulate cells or biological particles is becoming o...
Microfluidic technology has been applied widely for separating and trapping various type of cells. T...
A highly requirement of analyzing a biological sample at a so-called single cell level has encourage...
To perform specific analysis for the single cell, individual cells have to be captured and separated...
Microfluidic cell-based arraying technology is widely used in the field of single-cell analysis. How...
In this paper, a microfluidic device capable of trapping a single cell in a high throughput manner a...
Single cell analysis has become the interest of a wide range of biological and biomedical engineerin...
Copyright © 2014 B. Deng et al. This is an open access article distributed under the Creative Common...
Single-cell capture plays an important role in single-cell manipulation and analysis. This paper pre...
Single-cell analysis has become the interest of a wide range of biological and biomedical engineerin...
Single-cell analysis has become the interest of a wide range of biological and biomedical engineerin...
Single cell analysis techniques provide a unique opportunity of determining the intercellular hetero...
A new cell-trapping method for single cell analysis devices at a very rapid flow rate, is designed, ...
Microfluidic technology has been applied widely for separating and trapping various type of cells. T...
The isolation of single biological cells and their further cultivation in dedicated arrayed chambers...
The application of microfluidic technology to manipulate cells or biological particles is becoming o...
Microfluidic technology has been applied widely for separating and trapping various type of cells. T...
A highly requirement of analyzing a biological sample at a so-called single cell level has encourage...
To perform specific analysis for the single cell, individual cells have to be captured and separated...
Microfluidic cell-based arraying technology is widely used in the field of single-cell analysis. How...
In this paper, a microfluidic device capable of trapping a single cell in a high throughput manner a...
Single cell analysis has become the interest of a wide range of biological and biomedical engineerin...
Copyright © 2014 B. Deng et al. This is an open access article distributed under the Creative Common...
Single-cell capture plays an important role in single-cell manipulation and analysis. This paper pre...
Single-cell analysis has become the interest of a wide range of biological and biomedical engineerin...
Single-cell analysis has become the interest of a wide range of biological and biomedical engineerin...
Single cell analysis techniques provide a unique opportunity of determining the intercellular hetero...
A new cell-trapping method for single cell analysis devices at a very rapid flow rate, is designed, ...
Microfluidic technology has been applied widely for separating and trapping various type of cells. T...
The isolation of single biological cells and their further cultivation in dedicated arrayed chambers...