How To Detect Lead In Water

Gitanjali Rao, 11-year-old girl, is “America’s Top Young Scientist” of this year, with her invention of Tethys, a device that detects lead in water.

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Tethys, the Greek goddess of fresh water, is a lead detection tool. What you do is first dip a disposable cartridge, which can easily be removed and attached to the core device in the water you wish to test. Once you do that, that’s basically the manual part. Then you just pull out an app on your phone and check your status and it looks like the water in this container is safe. So that’s just very simple, about like a 10 to 15 second process,” says Gitanjali Rao . The young girl was affected by the Flint, Michigan water catastrophe when the city started using the Flint River for water in 2014, sparking a crisis that was linked to an outbreak of Legionnaires’ disease, at least 12 deaths and dangerously high lead levels in children.

I was most affected about Flint, Michigan because of the amount of people that were getting affected by the lead in water. And I also realized that it wasn’t just in Flint, Michigan and there were over 5,000 water systems in the U.S. alone. In the beginning of my final presentation at the event, I talked about a little boy named Opemipo, he’s 10 years old and lives in Flint, Michigan. And he has 1 percent elevated lead levels in his blood. And he’s among the thousands of adults and children exposed to the harmful effects of lead in water. So it’s a pretty big deal out there today,” remembers Rao. The seventh-grader said it took her five months to make Tethys from start to finish.

My first couple of times when I was doing my experimentation and test, I did fail so many times and it was frustrating, but I knew that it was just a learning experience and I could definitely develop my device further by doing even more tests and getting advice from my mentor as well. So, never be afraid to try,” explains Rao, who  won the 2017 Discovery Education 3M Young Scientist Challenge, along with a $25,000 prize.

Source: http://www.reuters.com/

Compact, Ultra Sensitive BioSensor Gives Infos From A Blood Drop

Imagine a hand-held environmental sensor that can instantly test water for lead, E. coli, and pesticides all at the same time, or a biosensor that can perform a complete blood workup from just a single drop. That’s the promise of nanoscale plasmonic interferometry, a technique that combines nanotechnology with plasmonics—the interaction between electrons in a metal and light.

Now researchers from Brown University’s School of Engineering have made an important fundamental advance that could make such devices more practical. The research team has developed a technique that eliminates the need for highly specialized external light sources that deliver coherent light, which the technique normally requires. The advance could enable more versatile and more compact devices.

  • FluorescencePlasmonicInterferometryPlasmonic interferometers that have light emitters within them could make for better, more compact biosensors.

It has always been assumed that coherent light was necessary for plasmonic interferometry,” said Domenico Pacifici, a professor of engineering who oversaw the work with his postdoctoral researcher Dongfang Li, and graduate student Jing Feng. “But we were able to disprove that assumption.”

The research is described in Nature Scientific Reports.

Source: https://news.brown.edu/