Stamp-sized sensor can detect chemical warfare agentsStamp-sized sensor can detect chemical warfare agents

WASHINGTON, Nov 24: Scientists have developed a stamp-sized sensor that can detect trace amounts of certain chemical warfare agents, such as sarin, within minutes.
Sarin is a man-made nerve agent that can spread as a gas or liquid. According to the US Center for Disease control, exposure to large doses will over-stimulate glands and muscles, and can lead to loss of consciousness or respiratory failure.
Even small doses can cause a long list of distressing and dangerous symptoms.
“Low-level nerve agent exposure leads to ambiguous signs and symptoms that cannot be easily discriminated from other conditions, which may result in a delay in treatment and permanent damage,” said Paul Braun, a professor at the University of Illinois at Urbana-Champaign in the US.
“If trace amounts can be detected quickly, you can prevent permanent damage to human health,” said Braun.
“There are sophisticated sensors available, but they are large and expensive, and thus some individuals may be exposed to sarin without knowing it, and that’s too late,” he said.
“Current miniature sensors only shown the presence of a toxin, not the amount of exposure,” he added.
Existing small sensors also may not be sufficiently sensitive to provide adequate protection.
“The problem was that the molecules moved too slowly, It would take an hour to a day to move molecules a centimeter, and we didn’t have a great way to do quantitative detection,” said Braun.
“However, the chemical black hole technique proved that the science behind a chemical gradient would work, and the next step was to figure out a “detection technique that could make a real impact,” he said.
Knowing that they needed something smaller than slow-moving molecules, the researchers exposed a safe version of a sarin-like molecule to the enzyme DFPase, causing the molecule to undergo hydrolysis, and break up into several parts.
One of these parts was a negatively charged fluoride ion.
“The fluoride ion is easy to detect electrochemically,” said Mohammad Amdad Ali, a postdoctoral researcher in Braun’s group.
“And, because it is so small, it moves much more quickly than a molecule. If we have a surface with positively charged gradient focusing a point in the centre of the sensor that really likes (attracts the fluoride ion), instead of taking hours, it takes only minutes for all the fluoride ions to end up at one point,” said Ali.
“We were able to create a gel film that not only broke the molecule down, but pulled the negatively charged fluoride ions into an embedded fluoride ion specific sensor at the centre point, and read how much fluoride we had,” he said.
“Once we know how much fluoride we have, we know how much sarin the sensor was exposed to,” Braun said.
The next step is to test the sensors in an environment that is set up to handle the actual nerve agent.
“The ultimate goal is to manufacture something small enough, like a postage stamp, that may be worn on a uniform to detect gas or can be removed to test a surface that within minutes will tell if the agent is present and how much of the agent is there,” said Braun. (AGENCIES)
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