Team engineers nanoparticles using ion irradiation to advance clean energy and fuel conversion
The work demonstrates control over key properties leading to better performance.
The work demonstrates control over key properties leading to better performance.
The LIRAS technique could speed up the development of acoustic lenses, impact-resistant films, and other futuristic materials.
Thin flakes of graphite can be tuned to exhibit three important properties.
MIT CSAIL researchers combine AI and electron microscopy to expedite detailed brain network mapping, aiming to enhance connectomics research and clinical pathology.
A newly identified process could explain a variety of natural phenomena and enable new approaches to desalination.
A look at how the MIT professor spent his day after learning he had won the Nobel Prize in Chemistry.
For his work on techniques to generate quantum dots of uniform size and color, Bawendi is honored along with Louis Brus and Alexei Ekimov.
This technology for storing and transmitting quantum information over lossy links could provide the foundation for scalable quantum networking.
Staff share nano experience — and ice cream — with their families.
In a first, researchers have observed how lithium ions flow through a battery interface, which could help engineers optimize the material’s design.
Lincoln Laboratory hosts students enrolled in the Massachusetts Microelectronics Internship Program, aimed at training a new generation of microelectronics leaders.
The new approach could lead to intranasal vaccines for Covid-19 and other respiratory diseases.
Microbial or fungal biofilms on spacecraft can clog hoses and filters, or make astronauts sick. Space Station tests show that a surface treatment can help.
The ultrasmall “switch” could be easily scaled.
MIT engineers developed a new way to create these arrays, by scaffolding quantum rods onto patterned DNA.