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Home NEWS Science News

Scientists adapt solar energy technology to detect chemical warfare agents & pesticides

Bioengineer by Bioengineer
March 4, 2021
in Science News
Reading Time: 3 mins read
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Researchers are harnessing next-generation photovoltaics materials to create a fast, accurate testing mechanism for harmful compounds

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In a colourful solution to a dangerous problem, Australian scientists are adapting a component from cutting-edge solar cells to design a rapid, light-based detection system for deadly toxins.

While use of chemical warfare agents like sulfur mustard – better known as mustard gas – is banned internationally, we do rely on other strictly-controlled chemicals for agriculture, industry and throughout our daily lives, including fumigants like methyl iodide, which is used to control insects and fungi. The wrong amounts or incorrect use of these fumigants can be harmful to people and degrade the ozone layer.

Because it’s invisible and doesn’t smell, it’s hard to tell whether there are dangerous amounts of methyl iodide present, and until now the best way to test for it was in a laboratory using expensive, complicated equipment, which isn’t practical in many real-world settings. Some cheaper, lightweight detection methods have been tried, but they didn’t have enough sensitivity and took too long to deliver results.

Now, research led by the ARC Centre of Excellence in Exciton Science has found a way to detect methyl iodide through changes in colour, with – for the first time – the accuracy, flexibility and speed necessary for practical use. Importantly, this new sensing mechanism is versatile enough for use in detecting a wide range of fumigants and chemical warfare agents.

Working with Australia’s national science agency CSIRO and the Department of Defence, the researchers borrowed some new technology that’s being used to improve solar power – synthetic nanocrystals based on a perovskite structure – and turned it into a detection method.

Their approach relies on the fact that these highly fluorescent nanocrystals react with the fumigant causing a change in the colour of the light they emit. The presence of methyl iodide causes the nanocrystal emission to shift from green to yellow, and then on to orange, red, and finally deep red, depending on the amount of fumigant present.

“Perovskite nanocrystals have proved to be a very efficient light emitter,” lead author Dr Wenping Yin of Monash University said.

“Here we showed that methyl iodide can react with such perovskites, and do so very quickly following a simple chemical activation step. Critically, this activation step cuts the response time of the sensor from a few hours to just a few seconds.”

In this process, the ions forming the nanocrystals change quickly when they are exposed to the methyl iodide triggered by a chemical reaction.

The reaction involves exchanging bromide with iodide within the nanocrystal itself, which results in the colour change.

Ultimately, the researchers have been able to demonstrate that the change in colour is dependent on the perovskite nanocrystal and methyl iodide concentrations.

“Although the chemical mechanism is very complicated, the outcome is just a colour change of the light produced by the nanocrystals, which is very easy to detect,” Wenping said.

The new mechanism has the widest range, highest sensitivity and quickest response ever achieved for a technique that doesn’t rely on expensive laboratory instrumentation, producing its results in around five seconds at room temperature.

The researchers now hope their findings will provide a platform for building a test device that can be used in real-world applications.

Senior author Professor Jacek Jasieniak said: “We’ve understood the foundational mechanism for what’s needed to undergo this colourimetric sensing. Now it’s about building a prototype sensing device.

“It needs further development to realise its true potential for broader detection of different types of methyl halide species, as well as pesticides and chemical warfare agents, like teargas, and mustard gas, but the stage is set.”

Defence scientist and Industry Partner Investigator, Dr Genevieve Dennison said: “We are very excited about the potential demonstrated by this work and are looking forward to applying the technology to protect our military and first responders.”

###

Media Contact
Iain Strachan
[email protected]

Original Source

https://excitonscience.com/news/australian-scientists-adapting-solar-energy-technology-detect-chemical-warfare-agents-and

Related Journal Article

http://dx.doi.org/10.1021/acsnano.0c08794

Tags: Chemical/Biological WeaponsChemistry/Physics/Materials SciencesFertilizers/Pest Management
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