Applied Materials to expand global manufacturing capacity through 2030
Applied Materials has announced its intention to make multi-billion-dollar investments in its innovation infrastructure in the US and to expand its global manufacturing capacity between now and 2030......»»
NASA satellites reveal abrupt drop in global freshwater levels
An international team of scientists using observations from NASA-German satellites found evidence that Earth's total amount of freshwater dropped abruptly starting in May 2014 and has remained low ever since. Reporting in Surveys in Geophysics, the r.....»»
Ultrafast lasers enable manipulation of polar order in a charge density wave at room temperature
Addressing the challenge of controlling electronic states in materials, the scientific community has been exploring innovative methods. Recently, researchers from Peking University, led by Professor Nanlin Wang, in collaboration with Professor Qiaome.....»»
Ytterbium thin-disk lasers pave the way for sensitive detection of atmospheric pollutants
Alongside carbon dioxide, methane is a key driver of global warming. To detect and monitor the climate pollutants in the atmosphere precisely, scientists at the Max Planck Institute for the Science of Light (MPL) have developed an advanced laser tech.....»»
The role of interculturalism in higher music education
By reimagining educational practices to include diverse cultural perspectives and community engagement, institutions can cultivate a new generation of artists who are not only skilled musicians but also empathetic and socially responsible global citi.....»»
Simple table salt enhances new adhesive polymer technology
Adhesives are everywhere, from the tape used in households to the bonding materials in vehicles and electronics. The search for stronger, more adaptable adhesives is ongoing and may come down to adding a dash of salt to two special polymer ingredient.....»»
Topological defects can trigger a transformation from insulating to conductive behavior in Mott materials
Researchers at Università Cattolica, Brescia campus, have discovered that the transition from insulating to conductive behavior in certain materials is driven by topological defects in the structure......»»
Mechanical metamaterial enables long-distance component interaction for unique stretching properties
Metamaterials are artificial materials that do not occur in nature. Their components function like atoms in conventional materials but have special optical, electrical and magnetic properties. Interaction between the components is crucial to a metama.....»»
Opinon: Shell"s legal victory is disappointing—but this is not the end for corporate climate litigation
In the first ruling of its kind, the Dutch Hague District Court in 2021 ordered a fossil fuel company, Shell, to slash its emissions. This decision would have required the oil and gas giant to cut its emissions by 45% by 2030 (compared with 2019 leve.....»»
Comprehensive database released to advance data-driven research in the field of quasicrystals
Quasicrystals are materials with unique, non-periodic symmetry that distinguishes them from conventional crystals. Approximant crystals, often regarded as precursor materials closely related to quasicrystals, share similar compositional and structura.....»»
Better education can mitigate post-harvest food losses, increase global food security
Better educating farmers and food processors about how to avoid post-harvest food losses—which amount to one-third of global food production, worth US$1 trillion annually—would reduce global food insecurity, according to researchers at McGill Uni.....»»
Guest commentary: Every step counts to drive down greenhouse gas emissions with green materials
Manufacturers are under increasing pressure to incorporate novel, recyclable materials that produce fewer greenhouse gases. Many are turning to next-generation materials......»»
The rising tide of maritime cyberthreats in global trade
The rising tide of maritime cyberthreats in global trade.....»»
Moving graphene from the lab to fab: How 2D materials could transform everyday electronics
Graphene has lived up to its promise in the lab. Now, EU researchers are working on supporting its wider adoption in high-end electronics, photonics and sensors......»»
Bitsight acquires Cybersixgill to help organizations manage cyber exposure
Bitsight announced it has signed a definitive agreement to acquire Cybersixgill, a global cyber threat intelligence (CTI) data provider. Together, Bitsight and Cybersixgill will provide visibility into an organization’s external attack surface,.....»»
New route to quantum spin liquid materials discovered
A new route to materials with complex disordered magnetic properties at the quantum level has been produced by scientists for the first time. The material, based on a framework of ruthenium, fulfills the requirements of the Kitaev quantum spin liquid.....»»
Climate change: Women"s role in the economy is key to a just transition
The realities of climate change are hitting home for many people living in the Global South. Food security, water access and health have been jeopardized by increased temperatures, extreme weather events and sea level rise......»»
How the 2024 Election Could Change Access to Education in the U.S. and Influence Global Climate Change Decisions
The outcome of the 2024 U.S. presidential election could set the climate agenda, reshape public education and shift the dynamics of global science collaboration......»»
We Need Scientific Brainstorming about Shared Global Dangers
It is difficult to disentangle Russian and Chinese scientists from international science cooperation. That is a good thing.....»»
The U.S. Must Lead the Global Fight against Superbugs
Antimicrobial resistance could claim 39 million lives by 2050, yet the pipeline for new antibiotics is drying up. U.S. policy makers can help fix it.....»»
Generative AI Could Generate Millions More Tons of E-Waste by 2030
Generative AI could saddle the planet with heaps more hazardous waste.....»»