Superconductivity and ferroelectricity found in the same 2D material
When it comes to two-dimensional materials, it's best to expect the unexpected. Writing in Nature, researchers at Columbia find evidence that two competing phenomena—superconductivity and ferroelectricity—can occur within the same material. "This.....»»
Prussian blue analogs unlock affordable, long-lasting lithium-ion batteries
Prussian blue (PB), a well-known pigment used to dye jeans, has been recognized as an emerging material for next-generation batteries. A team of researchers, led by Professor Hyun-Wook Lee in the School of Energy and Chemical Engineering at UNIST has.....»»
New experiment investigates light-induced Meissner effect in optically driven superconductor
Superconductivity is a fascinating phenomenon, which allows a material to sustain an electrical current without any loss. This collective quantum behavior of matter only appears in certain conductors at temperatures far below ambient......»»
High-speed electron camera uncovers new "light-twisting" behavior in ultrathin material
While taking snapshots with the high-speed electron camera at the Department of Energy's SLAC National Acceleratory Laboratory, researchers discovered new behavior in an ultrathin material that offers a promising approach to manipulating light that w.....»»
Photosynthesis powers our world, but what fuels this fundamental process?
It's hard to overstate the importance of photosynthesis, the biochemical pathway by which plants, algae, and certain bacteria convert the sun's energy into the organic material that feeds the entire living biosphere. But there are still aspects of th.....»»
Visualizing the boundary modes of the charge density wave in a topological material
Charge density waves are quantum phenomena occurring in some materials, which involve a static modulation of conduction electrons and the periodic distortion of the lattice. These waves have been observed in numerous condensed matter materials, inclu.....»»
The art of molecular self-assembly: Crafting 2D nanostructures for advanced materials
Creating periodic nanostructures is vital for progress in material science and nanotechnology. Traditional methods often struggle with complexity and scalability. Integrating bottom-up self-assembly of block molecules with top-down lithography offers.....»»
New hemp reference material will help ensure accurate cannabis measurements
The National Institute of Standards and Technology (NIST) is now selling a hemp reference material that will help laboratories accurately measure key components in cannabis plant products. This will help law enforcement agencies accurately distinguis.....»»
As ocean surfaces acidify, a deep-sea acidic zone is expanding, and marine habitats are being squeezed
In the deepest parts of the ocean, below 4,000 meters, the combination of high pressure and low temperature creates conditions that dissolve calcium carbonate, the material marine animals use to make their shells......»»
Apple Watch SE may switch to an all-plastic chassis to lower costs
Apple is reported to have tested replacing the metal portion of the current Apple Watch SE case with rigid plastic to lower the cost.The current Apple Watch SE uses a nylon-composite material on its back side.Alongside reports of updated regular and.....»»
Beryl heads for Texas after causing damage, no deaths in Mexico
Beryl weakened to a tropical storm Friday after hitting Mexico as a Category 2 hurricane, with fierce winds causing material damage but no injuries along the touristic Yucatan Peninsula......»»
A prototype superconducting coil opens the way for more energy-efficient electromagnets
How can we advance cutting-edge research but consume less energy? CERN's scientists are working on innovative solutions, and superconductivity is one of the key ingredients......»»
Researchers pioneer new methods in ultrafast science for sharper molecular movies
Imagine being able to watch the inner workings of a chemical reaction or a material as it changes and reacts to its environment—that's the sort of thing researchers can do with a high-speed "electron camera" called the Megaelectronvolt Ultrafast El.....»»
Controlling magnetism with polarized light: Non-thermal pathway uses inverse Faraday effect
Intense laser pulses can be used to manipulate or even switch the magnetization orientation of a material on extremely short time scales. Typically, such effects are thermally induced, as the absorbed laser energy heats up the material very rapidly,.....»»
Decolonizing a university"s tropical ecology curriculum
A new study of curriculum reading material at the University of Glasgow finds that 94% of recommended tropical ecology authors are white, and that 80% of authors are affiliated with universities outside of the tropics. Dr. Stewart White, Senior Lectu.....»»
Only 13% of organizations are cyber mature
A staggering 83% of organizations have suffered a material security breach recently, with over half occurring in the past year alone, underscoring the critical need for advanced preparedness and agile response strategies, according to Commvault. For.....»»
How 36,000 buried tea bags help explain global decomposition
Co-developed by Umeå university, a method to measure the decay of plant material with the help of simple tea bags has quickly become the standard in scientific research as well as a favorite teaching activity throughout the world......»»
Shear genius: Researchers find way to scale up wonder material, which could do wonders for the Earth
Researchers at the University of Virginia School of Engineering and Applied Science have figured out how to take a miracle material, one capable of extracting value from captured carbon dioxide, and do what no one else has: make it practical to fabri.....»»
Meta is using your data to train AI models; Europeans can opt out
If you use Instagram or Facebook, Meta is using your data to train its AI models. The company uses posts as training material for its generative AI systems. Privacy legislation in the UK and European Union means that the company is forced to offer.....»»
Researchers develop ultrafast wavemeter that employs spectral–spatial–temporal mapping
Accurate high-speed measurements of wavelength are fundamental to optical research and industrial applications, such as environmental monitoring, biomedical analysis, and material characterization......»»
Team induces piezoelectricity for enhanced tetracycline hydrochloride degradation through photopiezocatalysis
A team of material scientists recently outlined the state of inducing piezoelectricity in distorted rutile TiO2 for enhanced tetracycline hydrochloride degradation through photopiezocatalysis. The team was led by Prof. Qi Li from Southwest Jiaotong U.....»»