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Meet the 11-year old who won a $25,000 science prize

By Jacopo Prisco, CNN

Updated 7:12 AM ET, Tue November 28, 2017

"I have always loved science," she said, "I believe that science allows me to look at different approaches to solve real-world problems no matter if it is biology, chemistry, physics, or even aerospace! My favorite science-related activity is to try to assemble things together and perform experiments to prove a hypothesis."
 
When asked about what worries her about the environment, Rao said: "I think, the misuse of natural resources such as clean water and air is alarming. Due to irresponsible waste management, air pollution and water contamination are quickly becoming leading causes of death and disease around the world. I hope we all commit to and show a sense of urgency to address these issues."
 
The other finalists in the challenge received $1,000 each.
 
Inspired by the Flint water crisis, 11-year old Gitanjali Rao created a cheap device to test drinking water for lead, and won a $25,000 science prize for it.
 Inspired by the Flint water crisis, 11-year old Gitanjali Rao created a cheap device to test drinking water for lead, and won a $25,000 science prize for it.

(CNN) Gitanjali Rao, a seventh grader from Colorado, has been awarded the title of "America's top young scientist" for designing a compact device to detect lead in drinking water, which she believes can be faster and cheaper than other current methods.

The 11-year-old's invention was inspired by the water crisis in Flint, Michigan, where cost-cutting measures led to tainted drinking water that contained lead and other toxins.
It also won her a $25,000 prize, for which Rao already has plans: "I plan to use most of it in developing my device further so that it can be commercially available soon," she told CNN.

Fighting lead

Lead is a toxic metal that is harmful to humans even in very low concentrations. If ingested, it is particularly dangerous for children and can cause developmental problems. It usually finds its way into the water system as a result of corrosion of old leaded pipes, made before we knew it was toxic.
The EPA (Environmental Protection Agency), the US government agency whose mission is to protect human health and the environment, sets the "maximum contaminant level goal" of lead in drinking water at zero, meaning that no amount is safe for human consumption. However, this is unrealistic because of the widespread use of leaded piping, thus it's not enforced.
The actual admissible quantity is 15 parts per billion, called an "action level" because if 10 percent of water samples from the same source exceed it, action must be taken. The World Health Organization, by comparison, sets a more strict acceptable level of 10 parts per billion.
As of June 2016, in the US, an estimated 5,300 water systems were in violation of EPA's lead and copper regulations, exposing 17.6 million people to unsafe levels of contaminants. In Flint, Michigan, one test by city officials in a local household in 2015 revealed a lead concentration of 397 parts per billion, 26 times more than EPA's own "danger level" of 15. But independent tests run by Virginia Tech researchers found concentrations as high as 13,000 parts per billion.

An invisible enemy

"After I learned about Flint," said Rao, "I continued to research and follow it for the next couple years. Then, I saw my parents testing for lead in our water and that is pretty much what sparked the idea. I realized that using test strips would take quite a few tries to get accurate results and I wanted to do something to change this, not only for my parents but for the residents of Flint and places like Flint around the world."
Gitanjali Rao with her £25,000 prize.
 Gitanjali Rao with her £25,000 prize.

Since lead does not affect the taste, smell of appearance of water in any way, the only way to detect it is with a test. There are currently two main ways to do so, home testing strips or lab testing. The strips generally cost between $15 and $30, can detect various contaminants and offer quick results, but they are not designed for maximum accuracy. That requires the more rigorous lab testing, which involves collecting a sample of water at home -- specific kits are sold for around $10 -- and then sending it to a lab to get detailed results, which can cost an additional $20 to $100, according to the EPA.
Rao thinks her device could become a competitively priced alternative: "The prototype cost just over $20 to make, but all of the materials were custom-manufactured. At bulk, I expect the production cost to be significantly less than that."

How it works

The device, called "Tethys" after the Greek Titan goddess of fresh water, uses carbon nanotubes, microscopic cylindrical structures that have a range of unusual properties and innovative applications. Inspired by an MIT project that employs them to detect hazardous gases in the air, Rao decided to try them in the water: "My solution uses carbon nanotubes to detect lead in water faster than any other current techniques. It has a carbon nanotube sensor, to which special atoms are added that react to lead," she said.

The Tethys device prototype.
 The Tethys device prototype.

When dipped in contaminated water, the special atoms react with lead molecules and add resistance to a flow of current in the nanotubes, which is then easily detected by the device: "The amount of resistance is proportional to the amount of lead in the water. The processor includes an attachment that sends the measurements over Bluetooth to a smartphone. The smartphone app, that I custom developed, captures this data and shows the results on a user-friendly scale."
Rao thinks that Tethys will be better than both lab testing and strips: "Testing water in labs is the most accurate test available today, however, it takes time and requires expensive equipment not easily accessible to everybody. On the other end, test strips are easy to use, but they do not quantify the contamination and are sometimes inaccurate requiring multiple tests."
"My solution addresses all of the above issues. It uses a disposable cartridge that can cost as low as a dollar, it is fast, accurate and it shows lead contamination levels on a regular smartphone, that are easy to interpret and take appropriate action," she said.

The prize

The seventh-grader, who attends the STEM School in Highlands Ranch, Colorado, originally submitted the idea to the Discovery Education 3M Young Scientist Challenge, an annual youth science and engineering competition for middle school students in the US, inaugurated in 2008. She was awarded a 3-month mentorship with Kathleen Shafer, a research specialist who develops new plastics technologies: "Gitanjali's concept was at a very early stage at the beginning of our mentorship. She had thought of this idea earlier this year, only a few weeks before the submission deadline," Shafer told CNN.

Gitanjali Rao with Kathleen Shafer.
 Gitanjali Rao with Kathleen Shafer.
 
Along with nine other finalists, she then presented her work to a panel of 3M scientists and school representatives from across the country, and won: "I think the judges recognized the significant progress Gitanjali made over the summer, advancing her project from a cardboard box prototype to building out Tethys' software and 3D-printed hardware. She also initiated some fundamental lab studies to investigate how aspects of her proposed sensor could work in the future," said Shafer. She remains cautious about the commercial future of the device: "For commercial products, it's important to establish technical feasibility, manufacturing feasibility, and a strong business case. As mentors we really focus on supporting the finalists in the early research phase of technical feasibility."
Rao, on the other hand, has clear plans: "I hope to make it commercially available in the next year so that it's in everybody's hands."

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