Northwestern University researchers are actively overturning the conventional view of iron oxides as mere phosphorus “sinks.” A critical nutrient for life, most phosphorus in the soil is ...

Thermo-Catalytic Oxidation of Dihydroxybenzenes in the Presence of Nano-Particle Iron Oxide.- Synthesis of Palladium Based Supported Catalysts by Colloidal Oxide Chemistry.- Gold-Based Nanoparticle ...

For example, titanium dioxide nanoparticles can be used for photocatalytic degradation of organic pollutants in water, while iron oxide nanoparticles ... is the scalable and reproducible synthesis of ...

Catalyst synthesis is the process of fabricating catalytic ... Unlocking the potential of traditional nanomaterials like spinel oxides is crucial for improving the catalytic oxygen evolution ...

This synthesis strategy not only simplifies alloy production, but also offers a sustainable approach by utilizing oxides as starting ... technique for metals like iron, nickel, cobalt, and copper.

Unlike in the copper oxide materials, it is possible in the same iron arsenide compound to dope ... for all of the various materials, as the synthesis of accurately doped compounds is difficult.

The burning metals are reacting with oxygen in the air and producing metal oxides. Sparklers contain small pieces of iron. When you burn the iron it reacts with oxygen to make iron oxide ...

Iron oxides, traditionally seen as phosphorus "sinks," are now recognized as efficient natural catalysts that convert organic phosphorus into its inorganic form, essential for plant growth.

Now, researchers report iron oxides can drive the same conversion at comparable rates as enzymes. The study adds yet another missing piece to nature's mysterious phosphorus cycle that can be used ...

Most phosphorus in the environment is in an organic form that plants cannot directly use, and traditional understanding suggested only enzymes could convert it into the bioavailable inorganic form.