We report a chip-scale lensless wide-field-of-view microscopy imaging technique, subpixel perspective sweeping microscopy, which can render microscopy images of growing or confluent cell cultures autonomously. We demonstrate that this technology can be used to build smart Petri dish platforms, termed ePetri, for cell culture experiments. This technique leverages the recent broad and cheap availability of high performance image sensor chips to provide a low-cost and automated microscopy solution. Unlike the two major classes of lensless microscopy methods, optofluidic microscopy and digital in-line holography microscopy, this new approach is fully capable of working with cell cultures or any samples in which cells may be contiguously connect...
International audienceNew microscopes are needed to help realize the full potential of 3D organoid c...
Microscopy imaging is of fundamental importance in diverse disciplines of science and technology. In...
Computational resources are constantly becoming faster, cheaper and more portable. Coupled with mass...
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...
The ability to obtain image data of multiple cell cultures simultaneously over a long-term period ca...
Self-imaging Petri dish platforms with microscopy resolution, which we term ‘ePetri’, can significan...
Biological studies always start from curious observations. This is exemplified by description of cel...
Time-lapse or longitudinal fluorescence microscopy is broadly used in cell biology. However, current...
Continuous cell culture monitoring as a way of investigating growth, proliferation, and kinetics of...
Multi-day tracking of cells in culture systems can provide valuable information in bioscience experi...
During suspension cell cultures in bioreactors, traditional measure for cell count and cell viabilit...
Observing microbial colonies is the standard method for determining the microbe titer and investigat...
Time-lapse or longitudinal fluorescence microscopy is broadly used in cell biology. However, current...
I will discuss my group's recent work on rethinking microscopy from the ground up. I will report on ...
International audienceNew microscopes are needed to help realize the full potential of 3D organoid c...
Microscopy imaging is of fundamental importance in diverse disciplines of science and technology. In...
Computational resources are constantly becoming faster, cheaper and more portable. Coupled with mass...
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...
The ability to obtain image data of multiple cell cultures simultaneously over a long-term period ca...
Self-imaging Petri dish platforms with microscopy resolution, which we term ‘ePetri’, can significan...
Biological studies always start from curious observations. This is exemplified by description of cel...
Time-lapse or longitudinal fluorescence microscopy is broadly used in cell biology. However, current...
Continuous cell culture monitoring as a way of investigating growth, proliferation, and kinetics of...
Multi-day tracking of cells in culture systems can provide valuable information in bioscience experi...
During suspension cell cultures in bioreactors, traditional measure for cell count and cell viabilit...
Observing microbial colonies is the standard method for determining the microbe titer and investigat...
Time-lapse or longitudinal fluorescence microscopy is broadly used in cell biology. However, current...
I will discuss my group's recent work on rethinking microscopy from the ground up. I will report on ...
International audienceNew microscopes are needed to help realize the full potential of 3D organoid c...
Microscopy imaging is of fundamental importance in diverse disciplines of science and technology. In...
Computational resources are constantly becoming faster, cheaper and more portable. Coupled with mass...