Insulator-to-metal transition achieved in iridate/manganate heterostructures
A research team has successfully achieved an atomically controlled insulator-to-metal transition in iridate/manganate heterostructures. Their findings were recently published in Nature Communications......»»
Why plug-in hybrids are failing to win over EV-hesitant consumers
Automakers' hopes of easing the EV transition with plug-in hybrids may be falling short, according to a J.D. Power report......»»
Humans have near-equal numbers of male and female babies, unlike many other animals—a new genetic study looks for clues
We know that boys and girls are produced in much the same frequency. But how—and why—is this 1:1 ratio achieved?.....»»
Researchers achieve tunable coherent population trapping in a double quantum dot system
A research team has achieved coherent population trapping (CPT) in a semiconductor double quantum dot (DQD) system......»»
Scientists discover "selfish DNA" crucial for early human development
A critical transition in early human development is regulated not by our own genes, but by DNA elements called transposons that can move around the genome, Sinai Health researchers have found......»»
Climate change: Care for humans, other species and the natural environment is the key to a just transition
Communities across the world are facing two worsening crises: a climate crisis and a care crisis......»»
Study unveils cobalt(III) reaction mechanism with nitriles, opening pathways for drug development
A research team led by Professor Jaeheung Cho from the Department of Chemistry at UNIST has published a study in the Journal of the American Chemical Society reporting the reaction mechanism of cobalt(III)-based metal complexes with nitrile substance.....»»
First ever visualization shows photoexcited charges traveling across the interface of two semiconductor materials
UC Santa Barbara researchers have achieved the first-ever "movie" of electric charges traveling across the interface of two different semiconductor materials. Using scanning ultrafast electron (SUEM) techniques developed in the Bolin Liao lab, the re.....»»
Geologist helps track lead pollution in a Tibetan glacier, revealing global impact of human activities
A collaborative research team involving Texas A&M University geologist Dr. Franco Marcantonio has examined the source of lead contamination in a Tibetan glacier, concluding that human activities have introduced the pollutant metal into some of the mo.....»»
Novel etching technique enhances absorptivity of powders for metal 3D-printing
In a significant advancement for metal additive manufacturing, researchers at Lawrence Livermore National Laboratory (LLNL) and their academic partners have developed a technique that enhances the optical absorptivity of metal powders used in 3D prin.....»»
Google identifies low noise “phase transition” in its quantum processor
Benchmark may help us understand how quantum computers can operate with low error. Back in 2019, Google made waves by claiming it had achieved what has been called "quantum suprem.....»»
Quantum register reaches 1,200 neutral atoms in continuous operation
A team of physicists led by Johannes Zeiher, research group leader in Immanuel Bloch's Quantum Many-Body Systems department and co-founder of the MPQ spin-off planqc, has achieved significant progress in scaling up quantum computing platforms with ne.....»»
The transition to a circular bioeconomy requires getting prices right, study says
Conventional food and agricultural production systems employ a linear "take, make, waste" approach: taking natural resources from the Earth to make food and fuel, generating waste that contaminates the soil and water, and emitting harmful pollutants......»»
Reducing energy loss in metal nanostructures by altering geometrical dimensions
Researchers at City University of Hong Kong (CityUHK) have made a discovery that significantly reduces energy loss in metal nanostructures. By altering the geometrical dimensions of these structures, researchers have unlocked their full potential, pa.....»»
New research shows legal challenges to climate action on the rise
As the global push towards low-carbon societies accelerates, a new study reveals that justice concerns are increasingly surfacing in legal disputes over climate policies and projects. This phenomenon, described as "just transition litigation," emphas.....»»
US finalizes rule to remove lead pipes within a decade
President Joe Biden's administration on Tuesday finalized a rule mandating the removal of the nation's remaining lead pipes within a decade, a move aimed at preventing millions of people from being exposed to the toxic metal linked with childhood dev.....»»
A new tool for faster, more in-depth analysis of nuclear properties and mass data
A significant advancement in nuclear-data analysis has been achieved, which is relevant for several key areas, ranging from particle and nuclear physics to clean energy and health care. Researchers have developed a new tool to process nuclear data in.....»»
Deals: Silver Apple Watch Series 10 all-time low, iPad Smart Folio, up to 30% off leather and metal bands, and more
Joining ongoing all-time low prices on the new black Titanium Apple Watch Ultra 2, today’s deals are headlined by the best offer yet on the 46mm Apple Watch Series 10 with the silver aluminum case alongside a host of brand new metal and leather ba.....»»
Physicists achieve strong coupling of Andreev qubits via microwave resonator
Physicists from the University of Basel have succeeded in coupling two Andreev qubits coherently over a macroscopic distance for the first time. They achieved this with the help of microwave photons generated in a narrow superconducting resonator. Th.....»»
Demonstrating how Great Barrier Reef water quality targets can be achieved through gully remediation
A new study conducted at Bonnie Doon Creek on the lower Burdekin River in Queensland has demonstrated a significant reduction in sediment yield through large-scale remediation of alluvial gullies. The findings are published in the journal Internation.....»»
Beyond "one pore at a time": New method of generating multiple, tunable nanopores
Nanoporous membranes with atomic-scale holes smaller than one-billionth of a meter have powerful potential for decontaminating polluted water, pulling valuable metal ions from the water, or for osmotic power generators......»»