Cell-phone based imaging flow cytometry can be realized by flowing cells through the microfluidic devices, and capturing their images with an optically enhanced camera of the cell-phone. Throughput in flow cytometers is usually enhanced by increasing the flow rate of cells. However, maximum frame rate of camera system limits the achievable flow rate. Beyond this, the images become highly blurred due to motion-smear. We propose to address this issue with coded illumination, which enables recovery of high-fidelity images of cells far beyond their motion-blur limit. This paper presents simulation results of deblurring the synthetically generated cell/bead images under such coded illumination
We develop a high-throughput technique to relate positions of individual cells to their three-dimens...
In recent years, high-speed imaging has become increasingly effective for the rapid analysis of sing...
With the recent advancement in microfluidics based lab-on-a-chip technology, lensless imaging system...
Cell-phone based imaging flow cytometry can be realized by flowing cells through the microfluidic de...
We present a portable imaging flow cytometer comprising a smartphone, a small-footprint optical fram...
I will present a microfluidic imaging flow cytometer incorporating stroboscopic illumination, for bl...
In this work, we report a system-level integration of portable microscopy and microfluidics for the ...
Lensless microfluidic imaging with super-resolution processing has become a promising solution to mi...
Lensless microfluidic imaging with super-resolution processing has become a promising solution to mi...
This dissertation demonstrates the development of a portable and low cost lab-on-a-chip flow cytomet...
We propose a flow cytometry concept that combines a spatial optical modulation scheme and deep learn...
Flow cytometry is a benchmark technique used for basic research and clinical diagnosis of various di...
We present a flow cytometer on a microfluidic chip that integrates an inline lens-free holographic m...
Purpose: An in vivo flow cytometer was developed recently, providing quantification of fluorescently...
High-throughput optical sensing and imaging instrument for capture and analysis of cells are among t...
We develop a high-throughput technique to relate positions of individual cells to their three-dimens...
In recent years, high-speed imaging has become increasingly effective for the rapid analysis of sing...
With the recent advancement in microfluidics based lab-on-a-chip technology, lensless imaging system...
Cell-phone based imaging flow cytometry can be realized by flowing cells through the microfluidic de...
We present a portable imaging flow cytometer comprising a smartphone, a small-footprint optical fram...
I will present a microfluidic imaging flow cytometer incorporating stroboscopic illumination, for bl...
In this work, we report a system-level integration of portable microscopy and microfluidics for the ...
Lensless microfluidic imaging with super-resolution processing has become a promising solution to mi...
Lensless microfluidic imaging with super-resolution processing has become a promising solution to mi...
This dissertation demonstrates the development of a portable and low cost lab-on-a-chip flow cytomet...
We propose a flow cytometry concept that combines a spatial optical modulation scheme and deep learn...
Flow cytometry is a benchmark technique used for basic research and clinical diagnosis of various di...
We present a flow cytometer on a microfluidic chip that integrates an inline lens-free holographic m...
Purpose: An in vivo flow cytometer was developed recently, providing quantification of fluorescently...
High-throughput optical sensing and imaging instrument for capture and analysis of cells are among t...
We develop a high-throughput technique to relate positions of individual cells to their three-dimens...
In recent years, high-speed imaging has become increasingly effective for the rapid analysis of sing...
With the recent advancement in microfluidics based lab-on-a-chip technology, lensless imaging system...