We report the implementation of a fully on-chip, lensless, sub-pixel resolving optofluidic microscope (SROFM) based on the super resolution algorithm. The device utilizes microfluidic flow to deliver specimens directly across a complementary metal oxide semiconductor (CMOS) sensor to generate a sequence of low-resolution (LR) projection images, where resolution is limited by the sensor's pixel size. This image sequence is then processed with a pixel super-resolution algorithm to reconstruct a single high resolution (HR) image, where features beyond the Nyquist rate of the LR images are resolved. We demonstrate the device's capabilities by imaging red blood cell, microspheres, protist Euglena gracilis, and Entamoeba invadens cysts with sub-c...
Bacteria have evolved complex, highly-coordinated, multi-component cellular engines to achieve high ...
Optical Microscopy has become an indispensible tool for many scientific disciplines especially in bi...
In this paper, we present the design of a 0.2 NA microscope objective operating across a 120nm broad...
We report the implementation of a fully on-chip, lensless, sub-pixel resolving optofluidic microscop...
We report the implementation of a fully on-chip, lensless, sub-pixel resolving optofluidic microscop...
We report on the implementation of color sub-pixel resolving optofluidic microscope (SROFM), a high ...
Miniaturization of imaging systems can significantly benefit clinical diagnosis in challenging envir...
Miniaturization of imaging systems can significantly benefit clinical diagnosis in challenging envir...
In this work, we present a novel optical imaging device that can be directly integrated into a micro...
This paper reports a complete on-chip high resolution lensless imaging device based on the optofluid...
Optical microscopy is an essential tool in biological science and one of the gold standards for medi...
Lab-on-a-chip systems are increasingly applied in cell-based assays for toxicology and drug testing....
In this article, a complete on-chip high resolution OFM device is presented. The OFM method abandons...
Low-cost and high-resolution on-chip microscopes are vital for reducing cost and improving efficienc...
We demonstrate lensfree holographic microscopy on a chip to achieve approximately 0.6 microm spatial...
Bacteria have evolved complex, highly-coordinated, multi-component cellular engines to achieve high ...
Optical Microscopy has become an indispensible tool for many scientific disciplines especially in bi...
In this paper, we present the design of a 0.2 NA microscope objective operating across a 120nm broad...
We report the implementation of a fully on-chip, lensless, sub-pixel resolving optofluidic microscop...
We report the implementation of a fully on-chip, lensless, sub-pixel resolving optofluidic microscop...
We report on the implementation of color sub-pixel resolving optofluidic microscope (SROFM), a high ...
Miniaturization of imaging systems can significantly benefit clinical diagnosis in challenging envir...
Miniaturization of imaging systems can significantly benefit clinical diagnosis in challenging envir...
In this work, we present a novel optical imaging device that can be directly integrated into a micro...
This paper reports a complete on-chip high resolution lensless imaging device based on the optofluid...
Optical microscopy is an essential tool in biological science and one of the gold standards for medi...
Lab-on-a-chip systems are increasingly applied in cell-based assays for toxicology and drug testing....
In this article, a complete on-chip high resolution OFM device is presented. The OFM method abandons...
Low-cost and high-resolution on-chip microscopes are vital for reducing cost and improving efficienc...
We demonstrate lensfree holographic microscopy on a chip to achieve approximately 0.6 microm spatial...
Bacteria have evolved complex, highly-coordinated, multi-component cellular engines to achieve high ...
Optical Microscopy has become an indispensible tool for many scientific disciplines especially in bi...
In this paper, we present the design of a 0.2 NA microscope objective operating across a 120nm broad...