Add to ORKGWe demonstrate a long imaging depth, multi-perspective fluorescence scanning microscopy based on Talbot effect generated from a microlens array. An object with two layers that are 155μm apart was reconstructed from different perspectives
Fluorescence microscopy is an indispensable tool in the areas of cell biology, histology and materia...
Most methods to observe three-dimensional processes in living samples are based on imaging a single ...
We propose a multifocal noncontact setup to perform depth-sensitive fluorescence imaging on a two-la...
We report a multi-perspective scanning microscope based on the Talbot effect of a periodic focal spo...
Fluorescence Talbot microscope is a scalable field-of-view (FOV) imaging platform, which takes advan...
The capability to perform multicolor, wide field-of-view (FOV) fluorescence microscopy imaging is im...
Here we report a low-cost and simple wide field-of-view (FOV) on-chip fluorescence-imaging platform,...
Confocal scanning microscopy is the de facto standard modality for fluorescence imaging. Point scann...
Light microscopy has been one of the most common tools in biological research, because of its high r...
Studying the structure and interactions of molecules and cells in their native environments has alwa...
AbstractA new type of wide-field fluorescence microscopy is described, which produces 100-nm-scale s...
The imaging of cellular dynamics in three dimensions using a standard microscope is severely limited...
We present a versatile fluorescence microscope, built by complementing a conventional fluorescence m...
The conventional optical microscope is an inherently two-dimensional (2D) imaging tool. The objectiv...
The majority of studies of the living cell rely on capturing images using fluorescence microscopy. U...
Fluorescence microscopy is an indispensable tool in the areas of cell biology, histology and materia...
Most methods to observe three-dimensional processes in living samples are based on imaging a single ...
We propose a multifocal noncontact setup to perform depth-sensitive fluorescence imaging on a two-la...
We report a multi-perspective scanning microscope based on the Talbot effect of a periodic focal spo...
Fluorescence Talbot microscope is a scalable field-of-view (FOV) imaging platform, which takes advan...
The capability to perform multicolor, wide field-of-view (FOV) fluorescence microscopy imaging is im...
Here we report a low-cost and simple wide field-of-view (FOV) on-chip fluorescence-imaging platform,...
Confocal scanning microscopy is the de facto standard modality for fluorescence imaging. Point scann...
Light microscopy has been one of the most common tools in biological research, because of its high r...
Studying the structure and interactions of molecules and cells in their native environments has alwa...
AbstractA new type of wide-field fluorescence microscopy is described, which produces 100-nm-scale s...
The imaging of cellular dynamics in three dimensions using a standard microscope is severely limited...
We present a versatile fluorescence microscope, built by complementing a conventional fluorescence m...
The conventional optical microscope is an inherently two-dimensional (2D) imaging tool. The objectiv...
The majority of studies of the living cell rely on capturing images using fluorescence microscopy. U...
Fluorescence microscopy is an indispensable tool in the areas of cell biology, histology and materia...
Most methods to observe three-dimensional processes in living samples are based on imaging a single ...
We propose a multifocal noncontact setup to perform depth-sensitive fluorescence imaging on a two-la...