https://www.cardiff.ac.uk/news/view/2530949-instant-water-cleaning-method-millions-of-times-better-than-commercial-approach

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    commercial approach

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Instant water cleaning method 'millions of times' better than
commercial approach

1 July 2021

[water-pour]

A water disinfectant created on the spot using just hydrogen and the
air around us is millions of times more effective at killing viruses
and bacteria than traditional commercial methods, according to
scientists from Cardiff University.

Reporting their findings today in the journal Nature Catalysis, the
team say the results could revolutionise water disinfection
technologies and present an unprecedented opportunity to provide
clean water to communities that need it most.

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

Over four million tonnes 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; however, it has been shown that chlorine can react with
naturally occurring compounds in water to form compounds which, in
high doses, 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.

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, known as reactive oxygen species
(ROS), 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 over 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.

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.

Co-author of the study Professor Graham Hutchings, Regius Professor
of Chemistry at the Cardiff Catalysis Institute, said: "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.

"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."

The study was led by Cardiff University's School of Chemistry and
School of Pharmacy and Pharmaceutical Sciences, accompanied by
researchers from Swansea University, Lehigh University, National
University of Singapore and the University of Bath, and experts at
Dwr Cyrmu Welsh Water.

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  * Prof Graham Hutchings FRS

    Professor Graham Hutchings

    Regius Professor of Chemistry

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