Scientists have found a way to more than double the uptake ability of a chemical structure that can be used for scrubbing carbon dioxide from factory flues.
This study presents an all-polymer aqueous sodium-ion battery using PANI electrodes, achieving high stability and capacity for sustainable energy storage.
OSU scientists enhanced a MOF’s carbon capture capacity by over 100% using ammonia gas, creating a stable, energy-efficient ...
Oregon State researchers discovered that exposing a copper-based MOF to ammonia gas doubles its CO2 adsorption ability. This ...
How the Blood of Congo Powers Our Lives," focuses on problems surrounding the sourcing of cobalt, a critical component of ...
After hours: December 6 at 5:44:35 PM EST Loading Chart for IONS ...
These metal ions form nodes that bind to the linkers’ arms, creating a repeating cage-like structure with nanosized pores ...
Cobalt is a vital material in lithium-ion batteries, powering everything from smartphones to electric cars. But how it’s ...
Dec. 2, 2024 — Where do you see patterns in chaos? It has now been demonstrated in the incredibly tiny quantum realm. Researchers detail an experiment that confirms a theory first put forth 40 ...
Key Takeaway from SMM Motor Annual Conference: Copper Prices More Likely to Rise than Fall, While Aluminum Price Volatility May Be Lower than Copper The production of high-purity manganese sulphate ...
This useful study highlights the largely redundant role of the decapping activators Edc3 and Scd6 in orchestrating post-transcriptional programs to modulate metabolic responses to nutrients in yeast.
In the 20th century, the United States began treating large amounts of its public drinking water supplies with chlorine. This vastly reduced waterborne pathogen-caused disease deaths and illnesses. Ch ...