CAMBRIDGE, Mass. — MIT and Applied Materials, Inc., announced an agreement today that, together with a grant to MIT from the Northeast Microelectronics Coalition (NEMC) Hub, commits more than $40 ...

Nanotechnology represents one of the most transformative fields in modern science, bridging physics, chemistry, biology, and engineering to create breakthroughs that redefine how the world works. It ...

The rapid evolution of laser micro/nano-manufacturing techniques has transformed precision manufacturing, enabling the creation of complex micro/nano-structures. These techniques are crucial for ...

Laser machining, as one of the most significant micro/nano-manufacturing technologies, shows the capability of achieving ultimate accuracy, feature size and surface integrity at atomic scale. This has ...

The fields of manufacturing and precision engineering have advanced significantly with the adoption of nanotechnology. The molecular-level precision it offers, alongside innovations in materials ...

State-of-the-art toolset will bridge academic innovations and industry pathways to scale for semiconductors, microelectronics and other critical technologies CAMBRIDGE, Mass. and SANTA CLARA, Calif., ...