In the field of neuroscience, imaging techniques are central for unraveling the structure and function of the nervous system at molecular, cellular, ...

Grab your lab coat, or at least pretend you have one, and prepare to zoom way, way in because we’re about to explore a world that’s been hiding right under your nose this whole time. Ever wondered ...

An electron microscopy image can capture atoms arranged in a crystal lattice or defects threading through a semiconductor material, but turning that image into materials insight can take weeks of ...

NVIDIA's DLSS 5 has proven to be one of the more controversial announcements so far this year. When initially announced, NVIDIA CEO Jensen Huang said it was using new "neural rendering" techniques and ...

Diffusing oxygen into 2D materials can improve adhesion properties. Channel-last processes can preserve most of the traditional gate-all-around process flow. Dual-gate MoS 2 FETs with graphene ...

Perhaps they can take a peek into the infinitesimal world outside with Bubo, a 2-in-1 digital microscope currently on Kickstarter. Designed for ease of use by curious novices and students alike, Bubo ...

Physically magnifying objects using a key moisture-absorbing ingredient in diapers has opened an unprecedented view of the microbial world. When you slip a slide under a microscope, a system of glass ...

Fluorescence microscopy is a cornerstone of modern biological research, widely used to reveal cellular structures, molecular interactions, and dynamic life processes. Computational fluorescence ...

Apple continues to focus on AI-powered image modification, with new studies detailing evaluation frameworks and an AI model that can turn 2D images into 3D scenes in a second. Here's what the ...

It takes just a few milliseconds: A vesicle, only a few nanometers in size and filled with neurotransmitters, approaches a cell membrane, fuses with it, and releases its chemical messengers into the ...

have found a new way to image layers of boron nitride that are only a single atom thick. This material is usually nearly invisible in optical microscopes because it has no optical resonances. To ...