New 3D printing technology achieves 130-fold better precision, allowing nanoscale control over strength and flexibility in printed materials.

Lightfield 4D overcomes these challenges by imaging entire 3D data sets at a precise moment in time, eliminating time delays ...

Capturing physiological and neuronal processes in 3D High-speed fluorescence imaging of physiological and neuronal processes Gentle long-term observation ...

A research team from Seoul National University College of Engineering has developed a technology to observe atomic structural changes of nanoparticles in three dimensions. Their study, which resolves ...

The main advantage of the beam-scanning approaches is their ability to minimize detection of out-of-focus fluorescence and crosstalk from the neighboring pixels, which indeed are core advantages of ...

Department of Materials Science and Engineering, University of Illinois, Urbana, Illinois 61801, United States Materials Research Laboratory, University of Illinois, Urbana, Illinois 61801, United ...

outperforming models trained using only CNNs such as 3D-RCAN and Noise2Fast. We show three examples of efficacy of this approach in wide-field, two-photon, and confocal fluorescence microscopy.

WITec's alpha300 Ri inverted confocal Raman imaging microscope facilitates 3D chemical characterization from a new angle. The inverted beam path of the alpha300 Ri microscope preserves all the ...

You are free to share (copy and redistribute) this article in any medium or format and to adapt (remix, transform, and build upon) the material for any purpose, even commercially within the parameters ...

and our confocal systems enable cell biologists to study function and structure using live-cell imaging at speeds and durations previously not possible. Bruker’s super-resolution microscopes are ...

The microscope's ability to record 3D protein orientation changes is crucial for understanding how proteins interact with other molecules to perform their functions. Listen to Story The concept for ...