Ammonia decomposition represents a pivotal process in the emerging hydrogen economy, offering a viable route to sustainably generate COx‐free hydrogen. This process converts ammonia (NH3) into ...

Ammonia (NH3) can be decomposed to produce hydrogen gas without releasing CO2. The ease of transport and high hydrogen density make it valuable for the green energy industry. A drawback of using NH3 ...

For realizing lithium-ion batteries (LIBs) with higher energy density (350 Wh kg −1), silicon-based anode materials such as nano-Si, SiO x, and Si-C with high specific capacity (3579 mAh g −1 for nano ...

Using ammonia is regarded as a promising method of transporting hydrogen. However, an efficient process is also needed to convert it back into hydrogen and nitrogen. Using ammonia is regarded as a ...

Watch as common household ingredients create a fascinating chemical reaction that produces a growing "snake" of carbon. This experiment demonstrates decomposition reactions, gas formation, and the ...

High-repetition laser-induced instrument enables kinetic measurements of fluorescent decomposition products as a proxy for ...

Calorimetry measures the amount of heat released or absorbed during a chemical reaction. It is a beneficial and powerful tool that accurately evaluates chemical processes, helps researchers assess ...