Category Technology/Electronics

Next-gen Batteries possible with new Engineering approach

A three-dimensional cross-linked polymer sponge attaches to the metal plating of a lithium ion battery anode, allowing ion transfer and limiting deterioration. IMAGE: DONGHAI WANG

A three-dimensional cross-linked polymer sponge attaches to the metal plating of a lithium ion battery anode, allowing ion transfer and limiting deterioration. IMAGE: DONGHAI WANG

Dramatically longer-lasting, faster-charging and safer lithium metal batteries may be possible, according to Penn State research, recently published in Nature Energy. The researchers developed a 3D cross-linked polymer sponge that attaches to the metal plating of a battery anode.

“This project aims to develop the next generation of metal batteries,” said Donghai Wang, professor of mechanical engineering and the principal investigator of the project. “Lithium metal has been tried in batteries for decades, but there are some fundamental issues that inhibit their advancement.”

Under additional strain, like in the fa...

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Study opens route to Ultra-low-power Microchips

Illustration shows how hydrogen ions (red dots), controlled by an electric voltage, migrate through an intermediate material to change the magnetic properties of an adjacent magnetic layer(shown in green). Credit: Courtesy of the researchers, edited by MIT News

Illustration shows how hydrogen ions (red dots), controlled by an electric voltage, migrate through an intermediate material to change the magnetic properties of an adjacent magnetic layer(shown in green).
Credit: Courtesy of the researchers, edited by MIT News

A new approach to controlling magnetism in a microchip could open the doors to memory, computing, and sensing devices that consume drastically less power than existing versions. The approach could also overcome some of the inherent physical limitations that have been slowing progress in this area until now.

Researchers at MIT and at Brookhaven National Laboratory have demonstrated that they can control the magnetic properties of a thin-film material simply by applying a small voltage...

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Extending the life of Low-cost, compact, Lightweight Batteries

Researchers demonstrating the ability of aluminum to repel oil underwater.
Courtesy of the researchers

A new method can greatly extend the life of inexpensive, compact, lightweight metal-air batteries. Metal-air batteries are one of the lightest and most compact types of batteries available, but they can have a major limitation: When not in use, they degrade quickly, as corrosion eats away at their metal electrodes. Now, MIT researchers have found a way to substantially reduce that corrosion, making it possible for such batteries to have much longer shelf lives.

While typical rechargeable lithium-ion batteries only lose about 5% of their charge after a month of storage, they are too costly, bulky, or heavy for many applications...

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Graphene on the way to Superconductivity

The bandstructure in a double layer of graphene was scanned by ARPES at synchrotron light source BESSY II. Credit: HZB

The bandstructure in a double layer of graphene was scanned by ARPES at synchrotron light source BESSY II.
Credit: HZB

Scientists have found evidence that double layers of graphene have a property that may let them conduct current completely without resistance. They probed the band structure at BESSY II with extremely high resolution ARPES and could identify a flat area at a surprising location.

In April 2018, a group at MIT, USA, showed that it is possible to generate a form of superconductivity in a system of two layers of graphene under very specific conditions: To do this, the two hexagonal nets must be twisted against each other by exactly the magic angle of 1.1°. Under this condition a flat band forms in the electronic structure...

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