Researchers “iron out” graphene’s wrinkles
New technique produces highly conductive graphene wafers.
New technique produces highly conductive graphene wafers.
Rubbery, multifunctional fibers could be used to study spinal cord neurons and potentially restore function.
Self-assembly technique could lead to long-awaited, simple method for making smaller microchip patterns.
MIT energy and climate thought leaders play integral part in discussions at CERAWeek 2017.
New strategy could improve performance of some immune-based drugs.
Study sheds light on interactions that change the way heat and electricity move through microchips.
Novel laminated nanostructure gives steel bone-like resistance to fracturing under repeated stress.
Researchers have discovered a new way to tune electronic energy levels in some 2-D materials.
Newly discovered phenomenon accelerates electrons as they enter a viscous state.
New method could enable pinpoint diagnostics on individual blood cells.
Three-in-one design allows genetic, chemical, optical, and electrical inputs and outputs.
“Queen of carbon science” and recipient of Presidential Medal of Freedom and National Medal of Science led US scientific community, promoted women in STEM.
Study: Silicon can reproduce physical phenomena exploited by high-end telecommunications devices.