A team of researchers has developed a new interferometric single-molecule localization microscopy method with fast modulated structured illumination.
Using a microscopy technique, the researchers were able to see individual CAR T cells killing lymphoma cells in bone marrow.
The confocal microscopy system could better observe how large networks of neurons interact during various behaviors.
Named after a pioneer in vibrational spectroscopy, the award recognizes those who continue to advance the field.
The microscope could give doctors a better idea of how safely and effectively a medication will perform in the body.
This marks the 16th U.S. FDA approval for the company's Cellvizio p/nCLE confocal laser endomicroscopy platform.
Combining the two microscopy techniques could potentially offer rapid, detailed images of wide swaths of brain tissue.
Refinement of three-photon microscopy technology enabled study of stimulated neural activity through all cortical layers.
Light-sheet and two-photon microscopy setups based on adaptive optics will be developed accordingly.
A combination of advanced algorithms and improved hardware is driving the popularity of deconvolution for optical confocal microscopy.
Artificial intelligence (AI) helps transform ordinary optical microscope into superresolution microscopes.
Using the lensless imaging platform, more than 3 mL of a bodily fluid sample can be imaged and analyzed within 20 minutes.
Ozcan has made biophotonics-driven inventions in mobile health, telemedicine, microscopy, sensing, and diagnostics technologies.
Using Raman spectroscopy, the Raman signatures are able to identify cancers without needing to take biopsies.
Laser innovations that enable balancing of critical parameters provide unprecedented options for quick, nondestructive, high-quality imaging deep into tissue.