Category Technology/Electronics

Strange State of Matter in Superconducting Crystal

Crystalline samples of CeRhIn5 from Los Alamos were cut into microscopic, crystalline conducting paths with a focused ion beam at MPI-CPfS. © MPI CPfS

Crystalline samples of CeRhIn5 from Los Alamos were cut into microscopic, crystalline conducting paths with a focused ion beam at MPI-CPfS.
© MPI CPfS

New research shows a rare state of matter in which electrons in a superconducting crystal organize collectively. The findings lay the groundwork for answering one of the most compelling questions in physics: How do correlated electron systems work, and are they related to one another? Electrons in most metals act individually, free to move through a metal to conduct electric currents and heat. But in a special sample of layered cerium, rhodium and indium (CeRhIn5), scientists discovered that electrons unite to flow in the same direction (a behavior called “breaking symmetry”) when in high magnetic fields of 30tesla...

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Breakthrough in Magnesium Batteries

Fast kinetics of magnesium monochloride cations in interlayer-expanded titanium disulfide for magnesium rechargeable batteries. Nature Communications, August 2017 DOI: 10.1038/s41467-017-00431- 9

Fast kinetics of magnesium monochloride cations in interlayer-expanded titanium disulfide for magnesium rechargeable batteries. Nature Communications, August 2017 DOI: 10.1038/s41467-017-00431- 9

Nanostructured cathode, understanding of new electrolyte lead to greater efficiency. Magnesium batteries offer promise for safely powering modern life – unlike traditional lithium ion batteries, they are not flammable or subject to exploding – but their ability to store energy has been limited. Researchers reported Aug. 24 in the journal Nature Communications the discovery of a new design for the battery cathode, drastically increasing the storage capacity and upending conventional wisdom that the magnesium-chloride bond must be broken before inserting magnesium into the host.

The work was first ...

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Designing Custom Robots in a Matter of Minutes

This is a full robot set. Credit: MIT CSAIL

This is a full robot set. Credit: MIT CSAIL

MIT CSAIL’s ‘Interactive Robogami’ lets you design in minutes, and 3D-print, assemble origami-inspired robots from 2D designs in 4 hours. Even as robots become increasingly common, they remain incredibly difficult to make. From designing and modeling to fabricating and testing, the process is slow and costly: even one small change can mean days or weeks of rethinking and revising important hardware. But what if there was a way to let non-experts craft different robotic designs – in one sitting?

One of the key features of the system is that it allows designers to determine both the robot’s movement (“gait”) and shape (“geometry”), a capability that’s often separated in design systems...

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Stretchable Biofuel Cells extract energy from Sweat to power Wearable Devices

Soft, stretchable, high power density electronic skin-based biofuel cells for scavenging energy from human sweat

Soft, stretchable, high power density electronic skin-based biofuel cells for scavenging energy from human sweat that can power BLE radio, LEDs etc

A team of engineers has developed stretchable fuel cells that extract energy from sweat and are capable of powering electronics, such as LEDs and Bluetooth radios. The biofuel cells generate 10X more power per surface area than any existing wearable biofuel cells. The epidermal biofuel cells are a major breakthrough in the field, which has been struggling with making the devices that are stretchable enough and powerful enough. UCSD engineers used a combination of clever chemistry, advanced materials and electronic interfaces...

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