Self-imaging Petri dish platforms with microscopy resolution, which we term ‘ePetri’, can significantly streamline cell cultures and/or other longitudinal biological studies. In this paper, we demonstrate high-resolution imaging and long-term culture of motile microorganisms in a specialized ePetri platform by taking advantage of the inherent motion. By applying a super-resolution algorithm to a set of low-resolution images of the microorganisms as they move across the sensing area of a complementary metal oxide semiconductor (CMOS) image sensor chip, we can render an improved-resolution image of the microorganisms. We perform a longitudinal study of Euglena gracilis cultured in an ePetri platform, and image-based analysis on the motion and...
Culturing cells in microfluidic "lab-on-a-chip" devices for time lapse microscopy has become a valua...
Optical microscopy is an essential tool in biological science and one of the gold standards for medi...
Significant cell-to-cell variation with respect to growth, stress resistance, and other cellular tra...
Self-imaging Petri dish platforms with microscopy resolution, which we term ‘ePetri’, can significan...
We report a chip-scale lensless wide-field-of-view microscopy imaging technique, subpixel perspectiv...
We report a digital Petri dish platform for on-chip cell monitoring. We demonstrate the ability to i...
Observing microbial colonies is the standard method for determining the microbe titer and investigat...
We propose a microrobotic platform for single motile microorganism observation and investigation. Th...
Recent research on population heterogeneity revealed fascinating insights into microbial behavior. I...
The importance of individual heterogeneity within a genetically identical population has become well...
We report the implementation of a fully on-chip, lensless, sub-pixel resolving optofluidic microscop...
peer reviewedBright field microscopes are particularly useful tools for biologists for cell and tiss...
The power and simplicity of visual colony counting have made it the mainstay of microbiological anal...
Unraveling heterogeneity remains a major challenge to overcome when advancing our understanding of b...
Unraveling heterogeneity remains a major challenge to overcome when advancing our understanding of b...
Culturing cells in microfluidic "lab-on-a-chip" devices for time lapse microscopy has become a valua...
Optical microscopy is an essential tool in biological science and one of the gold standards for medi...
Significant cell-to-cell variation with respect to growth, stress resistance, and other cellular tra...
Self-imaging Petri dish platforms with microscopy resolution, which we term ‘ePetri’, can significan...
We report a chip-scale lensless wide-field-of-view microscopy imaging technique, subpixel perspectiv...
We report a digital Petri dish platform for on-chip cell monitoring. We demonstrate the ability to i...
Observing microbial colonies is the standard method for determining the microbe titer and investigat...
We propose a microrobotic platform for single motile microorganism observation and investigation. Th...
Recent research on population heterogeneity revealed fascinating insights into microbial behavior. I...
The importance of individual heterogeneity within a genetically identical population has become well...
We report the implementation of a fully on-chip, lensless, sub-pixel resolving optofluidic microscop...
peer reviewedBright field microscopes are particularly useful tools for biologists for cell and tiss...
The power and simplicity of visual colony counting have made it the mainstay of microbiological anal...
Unraveling heterogeneity remains a major challenge to overcome when advancing our understanding of b...
Unraveling heterogeneity remains a major challenge to overcome when advancing our understanding of b...
Culturing cells in microfluidic "lab-on-a-chip" devices for time lapse microscopy has become a valua...
Optical microscopy is an essential tool in biological science and one of the gold standards for medi...
Significant cell-to-cell variation with respect to growth, stress resistance, and other cellular tra...