Wednesday, August 28, 2019

Water microdroplets spontaneously make hydrogen peroxide

three brown bottles labeled hydrogen peroxide

Water microdroplets spontaneously produce hydrogen peroxide, research finds.

The discovery could pave the way for greener ways to produce the molecule, a common bleaching agent and disinfectant, says Richard Zare, professor in natural science and of chemistry at Stanford University.

“Water is one of the most commonly found materials, and it’s been studied for years and years and you would think that there was nothing more to learn about this molecule. But here’s yet another surprise,” says Zare, who is also a member of Stanford Bio-X.

“I think it could be one of the most important things I’ve ever done.”

The discovery was made serendipitously while Zare and his lab were studying a new, more efficient way to create gold nanostructures in tiny water droplets known as microdroplets. To make those structures, the team added an additional molecule called a reducing agent. As a control test, Zare suggested seeing if they could create gold nanostructures without the reducing agent. Theoretically that should have been impossible, but it worked anyway—hinting at an as yet undiscovered feature of microdroplet chemistry.

The team eventually traced those results to the presence of a molecule called hydroxyl—a single hydrogen atom paired with an oxygen atom—that can also act as a reducing agent. That equally unexpected result led Katherine Walker, at the time a graduate student in Zare’s lab, to wonder whether hydrogen peroxide, a molecule with two hydrogen and two oxygen atoms, was also present.

To find out, Zare, Walker, staff scientist Jae Kyoo Lee, and colleagues conducted a series of tests, the simplest of which involved spraying ostensibly pure water microdroplets onto a surface treated so that it would turn blue in the presence of hydrogen peroxide—and it did turn blue.

Additional tests confirmed that water microdroplets spontaneously form hydrogen peroxide, that smaller microdroplets produced higher concentrations of the molecule, and that hydrogen peroxide was not lost when the microdroplets recombined into bulk water.

The researchers ruled out a number of possible explanations before arriving at what they argue is the most likely explanation for hydrogen peroxide’s presence. They suggest that a strong electric field near the surface of water microdroplets in air triggers hydroxyl molecules to bind into hydrogen peroxide.

Although the results are something of a basic science curiosity, Zare says, they could have important practical consequences. Hydrogen peroxide is an important commercial and industrial chemical, most often manufactured through an ecologically unfriendly process. The new discovery could help make those methods greener, Zare says, and it could lead to simpler ways to disinfect surfaces—simply spraying water microdroplets on a table or floor might be enough to clean it.

“I think it could be one of the most important things I’ve ever done,” Zare says.

Additional researchers from Stanford, the Institute for Basic Science, and the Daegu Gyeongbuk Institute of Science and Technology contributed to the work, which appears in PNAS.

The US Air Force Office of Scientific Research and the Institute for Basic Science in South Korea contributed funding to the project.

Source: Stanford University

The post Water microdroplets spontaneously make hydrogen peroxide appeared first on Futurity.



from Futurity https://ift.tt/349ZYfs

No comments:

Post a Comment