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Archive for the ‘materials’ category: Page 22

Jun 24, 2024

Terahertz Waves Supercharged: A Breakthrough With Magnetic Materials

Posted by in categories: innovation, materials

Positioned between microwaves and infrared light, terahertz waves are key to pioneering advancements in imaging and diagnostic technologies. A recent discovery at Tohoku University of a material that can emit these waves more intensely promises to catalyze significant breakthroughs across a spectrum of industries.

Terahertz waves are being intensely studied by researchers around the world seeking to understand the “terahertz gap.” Terahertz waves have a specific frequency that put them somewhere between microwaves and infrared light. This range is referred to as a “gap” because much remains unknown about these waves. In fact, it was only relatively recently that researchers were able to develop the technology to generate them. Researchers at Tohoku University have brought us closer to understanding these waves and filling in this gap of knowledge.

Breakthrough in Terahertz Wave Generation.

Jun 23, 2024

Controlling Electronics With Light: Magnetite’s Hidden Phases Exposed by Lasers

Posted by in categories: innovation, materials

Researchers have successfully manipulated the structural properties of magnetite using light-induced phase transitions.

This technique uncovered hidden phases of magnetite, paving the way for new approaches to material manipulation in electronics.

Breakthrough in magnetite phase transition research.

Jun 22, 2024

Apple partner’s new material boosts solid-state batteries by 100x

Posted by in categories: energy, materials

Japanese firm TDK aims to improve next-gen solid-state battery design with a new material utilizing multi-layer lamination technology.

Jun 22, 2024

Controlling electronics with light: Ultrafast lasers manipulate magnetite’s structure

Posted by in categories: electronics, materials

Researchers at EPFL have discovered that by shining different wavelengths (colors) of light on a material called magnetite, they can change its state, e.g., making it more or less conducive to electricity. The discovery could lead to new ways of designing new materials for electronics such as memory storage, sensors, and other devices that rely on fast and efficient material responses.

Jun 22, 2024

Focusing micromechanical polaritons in topologically nontrivial hyperbolic metasurfaces

Posted by in category: materials

Dr. Johan Christensen, leader of IMDEA Materials Institute’s Mechanical and Acoustic Metamaterials research group, is among the researchers behind a pioneering study exploring the topological properties of metamaterials.

Jun 21, 2024

Graphene combines computer logic and memory in a single device

Posted by in categories: computing, materials

A device that can host tunable proton and electron currents.

Jun 21, 2024

Hard Yet Stretchable: Scientists Create “Unbreakable” New Material

Posted by in categories: biotech/medical, materials

Researchers have created a new class of materials called “glassy gels” that are as hard as glassy polymers, but – if you apply enough force – can stretch up to five times their original length, rather than breaking. A key thing that distinguishes glassy gels is that they are more than 50% liquid, which makes them more efficient conductors of electricity than common plastics that have comparable physical characteristics. Credit: Meixiang Wang, NC State University.

Researchers have developed a new class of materials known as glassy gels, which combine the hardness of glassy polymers with the stretchability of gels.

Continue reading “Hard Yet Stretchable: Scientists Create ‘Unbreakable’ New Material” »

Jun 21, 2024

Tunable superconductivity in electron- and hole-doped Bernal bilayer graphene

Posted by in category: materials

Tunable superconductivity and a series of flavour-symmetry-breaking phases are observed in electron-and hole-doped Bernal bilayer graphene.

Jun 20, 2024

Q&A: New method confines light inside an organic material to form a hybrid quantum state

Posted by in categories: materials, quantum physics

A team of international scientists led by the University of Ottawa have gone back to the kitchen cupboard to create a recipe that combines organic material and light to create quantum states.

Jun 20, 2024

Turning infrared light visible: New device uses 2D material to up-convert infrared light

Posted by in category: materials

The human eye can only see light at certain frequencies (called the visible spectrum), the lowest of which constitutes red light. Infrared light, which we can’t see, has an even lower frequency than red light. Researchers at the Indian Institute of Science (IISc) have now fabricated a device to increase or “up-convert” the frequency of short infrared light to the visible range.

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