Ultrathin 3-D-printed films convert energy of one form into another, MIT News
By A Mystery Man Writer
Description
MIT researchers have developed a 3-D printing technique to create, at room temperature, piezoelectric ultrathin ceramic films capable of high frequency gigahertz-level actuation. The films could enable high-performance flexible electronics and high-sensitivity biosensing.
MIT 3D Printer Can Make Artificial Bones, Tendons
Ultrathin 3-D-printed films convert energy of one form into another, MIT News
Liquid-metal micro-networks with strain-induced conductivity for soft electronics and robotic skin
Team uses 3D printing to strengthen a key material in aerospace, energy-generation applications, MIT News
Additive manufacturing assisted van der Waals integration of 3D/3D hierarchically functional nanostructures
Ultrathin fuel cell uses the body's own sugar to generate electricity
wp./wp-content/uploads/2023/03
New programmable 3D printed materials can sense their own movements - TCT Magazine
Laser-sculptured ultrathin transition metal carbide layers for energy storage and energy harvesting applications
Technologies and Applications - eoPortal
wp./wp-content/uploads/2023/03
New Polymer Twice as Strong as Steel at a Fraction of Its Density
Moiré material makes a synaptic transistor for neuromorphic computing – Physics World
wp./wp-content/uploads/2023/03
Computer program can translate a free-form 2-D drawing into a DNA structure
from
per adult (price varies by group size)