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When Silicon Fills the Role of Carbon: Debut of All-Silicon Cyclopentadienides
Turning Nitrate Pollution into Green Fuel: A 3D COF Enables Highly Efficient Ammonia Electrosynthesis
Maternal Perinatal Depression May Increase the Risk of Autistic-related Traits in Girls
Controlling Magnetism to Unlock Better Hydrogen Storage Alloys
Sustainable Electrosynthesis of Ethylamine at an Industrial Scale
An Unusual Dust Storm on Mars Reveals How the Red Planet Lost Some of its Water
“DIVE” into Hydrogen Storage Materials Discovery with AI Agents
3D Covalent Organic Framework Offers Sustainable Solution for Wastewater Treatment
Mechanical Strength Reliably Tracks Biodegradation in Composite Materials
3D Visualization of Internal Defects in Concrete to Help Improve Aging Infrastructure
Self-Powered Composite Material Detects Its Own Cracks
How Topological Surfaces Boost Clean Energy Catalysts
How AI Agents Are Transforming Solid Electrolyte Discovery
Optimized Solvent Design Improves Lymphatic Drug Delivery to Metastatic Lymph Nodes
Computing Using Real Life Traffic, Novel Approach to AI Cuts its Energy Usage
Layered hydrogen silicane for safe, lightweight, and energy-efficient hydrogen carrier
Study Sheds Light on the Function of a Key Antibiotic-Producing Enzyme
Identifying Corrosion Initiation Sites in Aluminum Alloys
DiaCardia: scalable and accessible ECG-based prediabetes screening, anytime, anywhere
Analyzing submerged fault structures to predict future earthquakes in Türkiye
Exploring the complex relationship between oral health and dementia
Development of an ESD Simulator Model for Early-stage Gastrointestinal Neoplasms
Bacterial Energy Model Reveals How Antimicrobial Resistance (AMR) Spreads in Environment
How Does a Glass “Shake” and Why Does it Start Flowing When Pushed Hard Enough?
New Magnetic Material For AI Era
Revealing the Mechanism Behind Quality Control of Insulin in the Endoplasmic Reticulum
Breakthrough in Carbon-Based Battery Materials Improves Safety, Durability, and Power
An AI-Based Blueprint for Designing Catalysts Across Materials
Tohoku University and Fujitsu Use AI to Discover Promising New Superconducting Material
How a Gourmet’s Palate Becomes Refined: Taste Training Mechanisms
Breakthrough Iron-Based Magnetic Material for Next-Generation Power Electronics
Nanoscale Magnetic Mazes to Revolutionize Data Center Communications
Rare-Earth Europium Substitution Allows for More Control Over CO₂-to-Fuel Conversion
For Green Energy: Exposing Just One Active Site Boosts Catalytic Activity
New Fully Digital Design Paves the Way for Scalable Probabilistic Computing
Study Reveals Key Psychological Barriers to Game Meat Consumption in Japan
Better Predicting the Lifespan Of Clean Energy Equipment, Towards A More Efficient Design
Water-Resistant and Recyclable Redox-Active Metal-Organic Frameworks (RAMOFs)
Recycling Pollutant To Make Ammonia Production Greener
Using Theory and Data to Create New Single Atom Catalysts for Cleaner Chlorine Production
Scientists Unveil a New Way to Look “Inside” Water’s Microscopic Structure
Interpretable Machine Intelligence for Materials Design of Metal Hydrides
Controlling Triple Quantum Dots in a Zinc Oxide Semiconductor
Switchbody: an enzyme fragment-fused antibody for antigen-responsive enzyme switch
What We Learned From a Decade-long Genome Cohort Study of 100,000 Japanese Individuals
The Flexible Brain: How Circuit Excitability and Plasticity Shift Across the Day
Unlocking Oxygen’s Hidden Role in Turning Propylene into Useful Chemicals
Researchers Find That Temperature Matters for RhRu₃Ox During Acidic Water Oxidation