Battery Game Changer: AI Identifies Key Conditions for All-Solid-State Battery Electrolyte Materials | Newswise
[ad_1] Newswise — Lithium-ion batteries serve as the core energy storage devices in various industries and everyday products, including smartphones, electric vehicles, and ESS (energy storage systems). However, conventional lithium-ion batteries use liquid electrolytes, posing a risk of fire or explosion when subjected to external impact or overheating. Recent electric vehicle fire incidents have heightened […]
From Leaf Images to Genomes: Deep Learning Reshapes Pest-Resistant Breeding | Newswise
[ad_1] Newswise — Agricultural pest management has traditionally relied on chemical insecticides, but their overuse has led to environmental contamination, health risks, and rapidly evolving pesticide resistance. Meanwhile, natural variation in pest resistance exists within crops and their wild relatives, offering valuable resources for breeding. However, resistance traits are difficult to measure accurately, as they […]
KRICT Develops Microfluidic Chip for One-Step Detection of PFAS and Other Pollutants | Newswise
[ad_1] Newswise — Environmental pollutant analysis typically requires complex sample pretreatment steps such as filtration, separation, and preconcentration. When solid materials such as sand, soil, or food residues are present in water samples, analytical accuracy often decreases, and filtration can unintentionally remove trace-level target pollutants along with the solids. To address this challenge, a joint […]
Infrared Spectroscopy Sheds New Light on the Future of Protonic Ceramic Cells | Newswise
[ad_1] Newswise — With the global shift toward renewable energy, solid oxide–based electrochemical devices have become essential for hydrogen production, energy storage, and fuel-to-electricity conversion. Traditional oxygen-ion–conducting cells require high operating temperatures, creating cost, durability, and material compatibility challenges. Protonic ceramic cells (PCCs) offer an alternative, operating efficiently at 300–600 °C and allowing the use […]
Changing the Playing Field in Nickel Catalysis | Newswise
[ad_1] BYLINE: Tracy Crane, Department of Chemistry Newswise — Researchers at the University of Illinois Urbana-Champaign have reported a breakthrough in nickel catalysis that harnesses a rare oxidation state of nickel that has proved challenging to control yet is highly valued for its potential to facilitate important chemical reactions. The researchers, led by Liviu Mirica, a […]
A Smashing Success: Relativistic Heavy Ion Collider Wraps up Final Collisions
[ad_1] Newswise — UPTON, N.Y. — Just after 9 a.m. on Friday, Feb. 6, 2026, final beams of oxygen ions — oxygen atoms stripped of their electrons — circulated through the twin 2.4-mile-circumference rings of the Relativistic Heavy Ion Collider (RHIC) and crashed into one another at nearly the speed of light inside the collider’s two […]
Why Ozone Persists: The Invisible Chemistry Behind Clean Air | Newswise
[ad_1] Newswise — Ground-level ozone is a major air pollutant that threatens human health, ecosystems, and climate stability. Despite aggressive reductions in nitrogen oxides and primary volatile organic compounds, ozone levels continue to exceed air quality standards in many regions. This paradox reflects the complex and nonlinear nature of atmospheric photochemistry, where reactive radicals control […]
Accurately Predicting Arctic Sea Ice in Real Time | Newswise
[ad_1] Newswise — WASHINGTON, Feb. 3, 2026 — Arctic sea ice has large effects on the global climate. By cooling the planet, Arctic ice impacts ocean circulation, atmospheric patterns, and extreme weather conditions, even outside the Arctic region. However, climate change has led to its rapid decline, and being able to make real-time predictions of […]