Ultrathin 3-D-printed films convert energy of one form into another, MIT News
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.
The Future of Electronics: 3D-Printed Solenoids - Interesting Engineering
Ultrathin 3-D-printed films convert energy of one form into another, MIT News
The Future of Electronics: 3D-Printed Solenoids - Interesting Engineering
Flexible, Printed Batteries for Wearable Devices
MIT's new 3D printing tech can make furniture in minutes - ReadWrite
Are we one step closer to being able to use the world's strongest material?
Are we one step closer to being able to use the world's strongest material?
MIT Engineers Create 3D-Printed Objects That Sense How a User Is Interacting With Them
Ultrathin Fuel Cell Generates Electricity From Your Body's Own Sugar
Computer program can translate a free-form 2-D drawing into a DNA structure
A miniaturized laser cooling system brings atoms to a standstill - Innovation Toronto
Ultrathin 3-D-printed films convert energy of one form into another
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3D printed nanomaterial could replace kevlar and steel for bulletproof armor - 3D Printing Industry
