Researchers have doubled down on a controversial claim that water can spontaneously form hydrogen peroxide by simply being sprayed as micro-sized droplets: https://t.co/s38wHFyGBr
A comprehensive study sets the record straight on the formation of hydrogen peroxide at the air-water interface. @InterfacialLab [Partner content with @KaustResearch]
Graduated with a Ph.D. in Environmental Science and Engineering, now creating his own startup ‘Terraxy’
This is Dr. Adair Gallo Jr., Class of 2021 #KAUST_Alumni
Our latest #ChemicalScience paper is out! We explain how the ambient ozone gas can lead to the formation of H2O2 in water microdroplets. #KAUST#water#interfaces
The apparent formation of hydrogen peroxide in water microdroplets without a catalyst or external energy input was originally suggested to be the result of electric fields at the water surface
https://t.co/KlNzUGdOTM
Miss the Olympics? Meet the champion, the Ocean Strider: faster than Hussain Bolt and > acceleration than a F1 car. This is what it took to be the sole insect to ever conquered the open ocean. Reported on our new paper led @gauri_mahadik@KAUST_News 👇
https://t.co/m4SHbrKD2I
Check out SandX the #sustainable#technology developed at #KAUST by Prof. Himanshu Mishra to increase food production in dry and water-scarce regions, such as Middle East. #GFIA
This week's front cover has also been highlighted here, https://t.co/eDr6K20c9i. A cool video has been included to explain the significance behind this work. Check it out!
Latest publication from our Group clarifies why electrosprays of water are unsuitable to probe equilibrium characteristics of the air-water interface, and why several chemical reactions dramatically accelerate in them: https://t.co/okrGuWR2DA