Middle-school students meet a beam of electrons, and excitement results
EMERGE program ignites interest in science through hands-on electron microscopy.
EMERGE program ignites interest in science through hands-on electron microscopy.
Biologists demonstrate that HIV-1 capsid acts like a Trojan horse to pass viral cargo across the nuclear pore.
DMSE’s new multipurpose hub invites undergraduates to explore materials, blending science, technology, and hands-on discovery.
The neuroscientist is recognized for her ongoing work to understand molecular and cellular mechanisms that enable the brain to adapt to experience.
Using fluorescent labels that switch on and off, MIT engineers can study how molecules in a cell interact to control the cell’s behavior.
The Nano Summit highlights nanoscale research across multiple disciplines at MIT.
A pivotal talk led postdoc Kristina Monakhova to develop smart, computational cameras and microscopes for intelligent systems.
MIT CSAIL researchers combine AI and electron microscopy to expedite detailed brain network mapping, aiming to enhance connectomics research and clinical pathology.
Project will develop new materials characterization tools and technologies to assign unique identifiers to individual pearls.
Materials scientist Anna Osherov helps researchers comprehend the nanoscale down to an atom using MIT.nano’s characterization tools.
First detailed mapping and modeling of thalamus inputs onto visual cortex neurons show brain leverages “wisdom of the crowd” to process sensory information.
The MIT professor discussed a new nanoengineered platform to investigate strongly correlated and topological physics.
With new techniques in electron microscopy, James LeBeau explores the nanoscale landscape within materials to understand their properties.
New tools can accommodate samples from small pieces up to 200 mm wafers.
Using organoids to model early development, researchers used an emerging microscopy technology to see that new neurons struggled to reach their developmental destination.