Category Technology/Electronics

Researchers at the University of Washington have developed 3D printed assistive technology that can track and store their use — without using batteries or electronics. Credit: Mark Stone/University of Washington

Engineers have developed 3D printed devices that can track and store their own use – without using batteries or electronics. Instead, this system uses a method called backscatter, through which a device can share information by reflecting signals that have been transmitted to it with an antenna.

Cheap and easily customizable, 3D printed devices are perfect for assistive technology, like prosthetics or “smart” pill bottles that can help patients remember to take their daily medications...

The wireless device naturally absorbs into the body after a week or two.
Credit: Northwestern University

Biodegradable implant provides electrical stimulation that speeds nerve regeneration. Researchers at Northwestern University and Washington University School of Medicine have developed the first example of a bioelectronic medicine: an implantable, biodegradable wireless device that speeds nerve regeneration and improves the healing of a damaged nerve.

The collaborators – materials scientists and engineers at Northwestern and neurosurgeons at Washington University – developed a device that delivers regular pulses of electricity to damaged peripheral nerves in rats after a surgical repair process, accelerating the regrowth of nerves in their legs and enhancing the ultimate recovery of musc...

MIT researchers have devised a way to grow single crystal GaN thin film on a GaN substrate through two-dimensional materials. The GaN thin film is then exfoliated by a flexible substrate, showing the rainbow color that comes from thin film interference. This technology will pave the way to flexible electronics and the reuse of the wafers.
Credit: Wei Kong and Kuan Qiao; Creative Commons Attribution Non-Commercial No Derivatives license

Cost-effective method produces semiconducting films from materials that outperform silicon. MIT engineers have developed a technique to fabricate ultrathin semiconducting films made from a host of exotic materials other than silicon...

Principle of a silicon singlet fission solar cell with incorporated organic crystals.
Credit: M. Künsting/HZB

A solar cell’s efficiency indicates what percentage of the solar energy radiated into the cell is converted into electrical energy. The theoretical limit for silicon solar cells is 29.3% due to physical material properties. In a new article, researchers describe how this limit can be abolished.

In the journal Materials Horizons, researchers from Helmholtz-Zentrum Berlin (HZB) and international colleagues describe how this limit can be abolished. The trick: they incorporate layers of organic molecules into the solar cell...