Instant water purification technology “millions of times” better than existing methods, new study claims

According to a study published today in the journal Nature Catalysis, a new water purification technology using just hydrogen and air is “millions of times more effective” at killing viruses and bacteria than traditional commercial methods.

The researchers, from Cardiff University, say the results could revolutionise water disinfection technologies and present an unprecedented opportunity to provide clean water to communities that need it most.

The “creation of hydrogen peroxide in situ could provide clean, drinkable water to communities in the poorest nations around the world,” the researchers say.

Instant hydrogen peroxide

Their new method works by using a catalyst made from gold and palladium that takes in hydrogen and oxygen to form hydrogen peroxide, which is a commonly used disinfectant that is currently produced on an industrial scale.

Over four million tons of hydrogen peroxide are made in factories each year, where it is then transported to the places it is used and stored. This means that stabilising chemicals are often added to the solutions during the production process to stop it degrading, but these reduce its effectiveness as a disinfectant.

Another common approach to disinfecting water is the addition of chlorine. But chlorine can react with naturally occurring compounds in water to form compounds which can be toxic to humans.

The ability to be able to produce hydrogen peroxide at the point of use would overcome both efficacy and safety issues currently associated with commercial methods.

Water purification technology “100,000,000 times” better at killing germs

In their study, the team tested the disinfection efficacy of commercially available hydrogen peroxide and chlorine compared to their new catalytic method.

Each was tested for its ability to kill Escherichia coli in identical conditions, followed by subsequent analysis to determine the processes by which the bacteria were killed using each method.

The team showed that as the catalyst brought the hydrogen and oxygen together to form hydrogen peroxide, it simultaneously produced a number of highly reactive compounds, which the team demonstrated were responsible for the antibacterial and antiviral effect, and not the hydrogen peroxide itself.

The catalyst-based method was shown to be 10,000,000 times more potent at killing the bacteria than an equivalent amount of the industrial hydrogen peroxide. And it was 100,000,000 times more effective than chlorination, under equivalent conditions.

In addition to this, the catalyst-based method was shown to be more effective at killing the bacteria and viruses in a shorter space of time compared to the other two compounds.

Cheap, fast water purification for billions of people

It is estimated that around 785 million people lack access to water and 2.7 billion experience water scarcity at least one month a year.

In addition to this, inadequate sanitation — a problem for around 2.4 billion people around the world — can lead to deadly diarrheal diseases, including cholera and typhoid fever, and other water-borne illnesses.

“The significantly enhanced bactericidal and virucidal activities achieved when reacting hydrogen and oxygen using our catalyst, rather than using commercial hydrogen peroxide or chlorination shows the potential for revolutionising water disinfection technologies around the world,” said co-author Graham Hutchings.

“We now have proven one-step process where, besides the catalyst, inputs of contaminated water and electricity are the only requirements to attain disinfection.

“Crucially, this process presents the opportunity to rapidly disinfect water over timescales in which conventional methods are ineffective, whilst also preventing the formation of hazardous compounds and biofilms, which can help bacteria and viruses to thrive.”

Study: “A residue-free approach to water disinfection using catalytic in situ generation of reactive oxygen species”
Photo: by Juan Salamanca from Pexels
Authors: Richards, T., Harrhy, J.H., Lewis, R.J. et al.
Published in: Nat Catal (2021). https://doi.org/10.1038/s41929-021-00642-w
Publication date: July 1, 2021

Originally published at https://www.psychnewsdaily.com on July 1, 2021.

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PsychNewsDaily brings you the latest research from the worlds of psychology, cognitive science, mental health and more.

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