Engineers invent vertical, full-color microscopic LEDs
Stacking light-emitting diodes instead of placing them side by side could enable fully immersive virtual reality displays and higher-resolution digital screens.
Stacking light-emitting diodes instead of placing them side by side could enable fully immersive virtual reality displays and higher-resolution digital screens.
With this microfluidic device, researchers modeled how sickled blood cells clog the spleen’s filters, leading to a potentially life-threatening condition.
Award recognizes scientists of Turkish origin younger than 50 who have made outstanding contributions to their fields.
Their technique could allow chip manufacturers to produce next-generation transistors based on materials other than silicon.
Engineers designed a tool that enables faster measurements of the condition of some nuclear reactor components, potentially extending their lifetimes.
DMSE’s Tenure Talks gives glimpse into the hard work, commitment, and decisions behind one of academia’s most important posts.
An unexpected ancient manufacturing strategy may hold the key to designing concrete that lasts for millennia.
Luqiao Liu utilizes a quantum property known as electron spin to build low-power, high-performance computer memories and programmable computer chips.
Researcher with broad expertise in an interdisciplinary field saw combat in World War II.
Palacios has served as director of the 6-A MEng Thesis Program, industry officer, and professor of electrical engineering.
Researchers develop a scalable fabrication technique to produce ultrathin, lightweight solar cells that can be seamlessly added to any surface.
MIT Conference on Mining, Environment, and Society convenes academics, industry, policymakers, and NGOs to discuss challenges of supplying the materials for clean energy.
Researchers have developed a programmable optical device for high-speed beam steering.
A new technique that accurately measures how atom-thin materials expand when heated could help engineers develop faster, more powerful electronic devices.
Branchlike metallic filaments can sap the power of solid-state lithium batteries. A new study explains how they form and how to divert them.