Developing a cyclic molecule that captures phosphate in harmony with water molecules
Researchers at University of Tsukuba, Osaka University, and Kitasato University developed a novel amide cyclodextrin (cyclic oligosaccharide) that can selectively capture phosphate ions in water. In addition, the researchers revealed the mechanism by.....»»
Superior photosynthesis abilities of some plants could hold key to climate-resilient crops
More than 3 billion years ago, on an Earth entirely covered with water, photosynthesis first evolved in ancient bacteria. In the following millions of years, those bacteria evolved into plants, optimizing themselves along the way for various environm.....»»
Delaware River water levels at 60% as salt front increases amid drought
Parched farms, wildfires, and browned vistas are highly visible signs of this fall's drought......»»
Q&A: Getting serious about atmospheric methane removal
Carbon dioxide, the most important man-made greenhouse gas, gets most of the attention in efforts to stem the effects of climate change. While methane is considered a much more potent greenhouse gas, it breaks down into carbon dioxide and water in th.....»»
2D graphene spin valve leverages van der Waals magnet proximity for efficient spintronics
Graphene, particularly in its purest form, has long been considered a promising material for developing spintronic devices. These devices leverage the intrinsic angular momentum (i.e., spin), as opposed to the charge, of electrons to transmit and pro.....»»
Google may finally bring back the Pixelbook, but not how you think
A report suggests Google is in the beginning phases of developing its first Pixel laptop of the 2020s......»»
Novel AI algorithm captures photons in motion
Close your eyes and picture the iconic "bullet time" scene from "The Matrix"—the one where Neo, played by Keanu Reeves, dodges bullets in slow motion. Now imagine being able to witness the same effect, but instead of speeding bullets, you're watchi.....»»
California water recycling plant gains $26 million to feed Lake Mead
Toilet water in Los Angeles will soon reduce the strain on Lake Mead, thanks in part to a $26.2 million boost that was announced Monday......»»
Statistical approach improves models of atmosphere on early Earth and exoplanets
As energy from the sun reaches Earth, some solar radiation is absorbed by the atmosphere, leading to chemical reactions like the formation of ozone and the breakup of gas molecules. A new approach for modeling these reactions, developed by a team led.....»»
Samsung is developing Gemini AI-powered XR glasses, and we might’ve already seen them
Remember when Samsung invited Google and Qualcomm to announce the “next XR experience“? I know I do because it happened in early February 2023, during … The post Samsung is developing Gemini AI-powered XR glasses, and we might’.....»»
Chicago-area water pollution may be stalling the spread of invasive carp
In a name-your-poison twist, a new study from the University of Illinois adds to the evidence that Chicago-area waterway pollution is slowing the relentless advance of the invasive silver carp......»»
Nvidia’s new GPUs are already running into problems
Nvidia's next-gen Blackwell architecture, after suffering a delay, is in more hot water as data centers deal with overheating problems......»»
Ensuring water for energy and food production in the Andes-Amazon headwaters
A new study, focused on a remote region of the Peruvian Andes where the waters of the Amazon originate, carries lessons for hydropower operators and farming communities worldwide: collaborating on sustainable land management is the best decision they.....»»
Mathematical model can help understand coexistence in nature
Different species of seabirds can coexist on small, isolated islands despite eating the same kind of fish. A researcher at Uppsala University has been involved in developing a mathematical model that can be used to better understand how this ecosyste.....»»
New on-chip device uses exotic light rays in 2D material to detect molecules
Researchers have developed a highly sensitive detector for identifying molecules via their infrared vibrational "fingerprint." This innovative detector converts incident infrared light into ultra-confined "nanolight" in the form of phonon polaritons.....»»
Methylmercury: How microbes create the most toxic form of mercury
Mercury is extraordinarily toxic, but it becomes especially dangerous when transformed into methylmercury—a form so harmful that just a few billionths of a gram can cause severe and lasting neurological damage to a developing fetus. Unfortunately,.....»»
Saturday Citations: Cold dark matter takes a hit; a new paradigm for biology; those fracking earthquakes
This week, researchers formulated a new method to calculate the probability of generating intelligent life in the universe. Investigations of a meteorite that originated on Mars revealed that it once interacted with liquid water. And an analysis of f.....»»
What Lee Zeldin’s Nomination Means for the EPA
What to expect from Donald Trump’s EPA pick: deregulation justified as boosts for the economy and platitudes about the importance of clean air and water......»»
Developing nations are least responsible for climate change but most affected. Will the COP29 tackle this injustice?
Since the Industrial Revolution, country after country has turned to fossil fuels to power their transport and industry......»»
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......»»
Mathematical approach can predict crystal structure in hours instead of months
Researchers at New York University have devised a mathematical approach to predict the structures of crystals—a critical step in developing many medicines and electronic devices—in a matter of hours using only a laptop, a process that previously.....»»