Tag: Electron paramagnetic resonance

InnovationScienceTechnology

Breakthrough Solar-Powered Catalyst Converts Ethane to Ethylene with Near-Perfect Efficiency

Researchers have created a groundbreaking photocatalytic system that converts ethane to ethylene using solar energy with near-unity selectivity. The innovative catalyst combines nickel single atoms with palladium nanoparticles to achieve remarkable efficiency while minimizing unwanted byproducts and coke formation that typically plague industrial processes.

Revolutionary Photocatalytic System

Scientists have developed a breakthrough photocatalytic system that converts ethane to ethylene using solar energy with unprecedented efficiency, according to research published in Nature Communications. The innovative approach achieves near-perfect 97.2% selectivity for ethylene production while generating hydrogen as a valuable byproduct, potentially revolutionizing light alkene production through sustainable means.

by Henry Blakemore
EnergyScience

Self-Healing Manganese Catalyst Breaks New Ground for Sustainable Hydrogen Production

Scientists have engineered a manganese-based electrocatalyst that repairs itself during voltage spikes, maintaining high performance in acidic conditions. This breakthrough could enable reliable hydrogen production using intermittent solar and wind power, addressing a major renewable energy challenge.

Revolutionary Self-Repairing Catalyst for Green Hydrogen

Researchers have reportedly developed a groundbreaking manganese-oxide-based electrocatalyst system that maintains stability despite the voltage fluctuations common to renewable energy sources, according to findings published in Nature Sustainability. The system incorporates a self-healing mechanism that allows it to regenerate after degradation, sustaining high current density of approximately 250 mA cm⁻² under fluctuating voltage conditions in acidic media – a environment where conventional catalysts typically fail rapidly.

by Henry Blakemore