Annual Challenge

Challenge Participants

The 2018 Young Scientist Challenge Finalists and State Merit Winners have been announced! Use the tabs below to check out their big ideas and explore all finalists, winners, mentors and judges!
Pancreatic Cancer Deep Learning System: A novel Tool for Improved Image-Guided Radiotherapy (IGRT) through Automated Pancreas Segmentation
Rishab Jain
2018 Winner
Meet Rishab. Rishab created a method that uses artificial intelligence to help accurately locate the pancreas during MRI radiotherapy and make cancer treatment more effective.
A Novel Toilet Flushing System using Grey Water and Fresh Water
Mehaa Amirthalingam
2018 Finalist
Meet Mehaa. Mehaa developed a toilet flushing system that uses both fresh and recycled water to reduce water consumption in the home.
Low cost Archery Assistant with an Interface for the Visually Impaired
Sriram Bhimaraju
2018 Finalist
Meet Sriram. Sriram developed Archery Assistant, an app that improves an archer’s accuracy by correcting form in real-time using a Bluetooth sensor.
Smart Infrared Based ROV to Identify and Remove Microplastics from Marine Environments
Anna Du
2018 Finalist
Meet Anna. Anna created an underwater device that uses infrared light to detect harmful microplastics in the ocean.
Alginate Gel for Pulled Teeth
Julia Gelfond
2018 Finalist
Meet Julia. Julia’s innovative use of Alginate Gel helps to alleviate pain, infection and suffering of millions who get their teeth pulled each year.
SOS Save Our Silence: An Optical Approach to Controlling Digital Noise Cancellation
Zachary Hessler
2018 Finalist
Meet Zachary. Zachary developed a method using light technology to reduce noise pollution.
Textricity: Using Piezoelectric Plates to Harvest Electricity from Taps on a Cell Phone
Theodore Jiang
2018 Finalist
Meet Theodore. Theodore created a smartphone case that harvests energy from finger taps on the screen to charge the phone’s battery.
uFlu: Your Personalized Flu Vaccine
Cameron Sharma
2018 Finalist
Meet Cameron. Cameron created a computer model that calculates the seasonal flu vaccine using artificial intelligence (AI) and deep machine learning to identify personalized flue vaccines.
A Potential Cure to Huntington's Disease
Krish Wadhwani
2018 Finalist
Meet Krish. Krish hopes to cure Huntington’s Disease through an injectable medication using Synthetic Antibody Mimics (SyAMs) to locate and attach to a specific protein found on the surface of cancer cells to ultimately eliminate Huntington’s disease.
Technology that is Optimizing and Controlling Aircraft Wing Shape and Efficiency In-Flight Through Novel Polymer Artificial Muscle Actuators
Leo Wylonis
2018 Finalist
Meet Leo. Leo hopes to reduce high altitude aircraft carbon emissions through his innovative design and use of polymer artificial muscles better known as PAM actuators.
The Ocean Energy Probe
Hannah Herbst
2015 Winner
Meet Hannah. Hannah's Ocean Energy Probe aims to provide a stable power source and fresh water to developing countries around the globe by using untapped energy from ocean currents. The energy is stored in a generator, and then can be harnessed for many uses, including the desalinization of water.
The Helping Hand
Peter Finch
2015 Finalist
Meet Peter. Peter believes his invention, The Helping Hand, will prevent many accidents caused by senior citizens falling on the stairs. Meant to maximize the use of arm strength, The Helping Hand reduces the impact on joints like the hands and knees. Although there are electric chairs on the market to help navigate the stairs, Peter believes his invention provides a portable, efficient and less expensive alternative for senior citizens.
Reducing CO2 emissions from cargo ships
Arthur Frigo, III
2015 Finalist
Meet Arthur. In one of many endeavors to learn more about science, Arthur hopes the Young Scientist Challenge will help feed his never-ending curiosity of science. With an interest in preventing some of the global issues faced today, Arthur's invention aims to reduce the CO2 emissions that cargo ships release daily. Arthur hopes to improve the environmental and human health problems by reducing cargo ship emissions, using wind power and a helium-filled parachute to propel cargo ships to their final destinations.
A Wireless, Wearable and Customizable Electronic Solution to Predict and Prevent Autistic Meltdowns.
Raghav Ganesh
2015 Finalist
Meet Raghav. To help those with Autistic Spectrum Disorder and their caregivers, Raghav's invention predicts and prevents Autistic Meltdowns. Monitoring physiological and environmental factors that can cause and trigger stress, Raghav's wireless and wearable machine alerts the wearer and caregiver when any stressors rise above a certain threshold.

His invention allows care to be tailored to individuals' needs by recording all sensory data and therapeutic responses. Raghav hopes his invention can help many people in daily situations, catering to the Autistic population and their caregivers.
Using Brainwave Patterns to Create Biofeedback Tools
Amulya Garimella
2015 Finalist
Meet Amulya. With a love for both filmmaking and science, the Young Scientist Challenge was the perfect opportunity for Amulya to showcase her talents. With a goal of preventing distractions while trying to concentrate, Amulya invented a distraction monitoring system that alerts the user of distraction by measuring EEG brainwaves. When users get distracted, they will receive an alert reminding them to concentrate and get back to work. Amulya hopes that being distracted while doing homework or working will be a thing of the past!
Mitigating Allergies with Nanoparticles
Iris Gupta
2015 Finalist
Meet Iris. Iris wants to stop allergies at the source. She believes that by inhaling or injecting nanoparticles, allergens' ability to attach to antibodies present in our bodies would be blocked as they entered our systems. Iris believes too many people suffer from allergies, and by testing to find the correct amount of nanoparticles optimal for blocking allergens, her invention aims to give them some much needed relief. Iris' favorite invention in the last 100 years is the Internet, because it makes research and access to information quick and easy.
Circular Ion Accelerator
Alec Lessing
2015 Finalist
Meet Alec. Alec's invention of a circular ion accelerator aims to make entry into space easier by giving multiple energy charges to passing particles before they are ejected from a rocket into space. Current linear ion accelerators only pass charging capacitor plates once before the are released from the rocket and lost into space, but by creating a circular accelerator, Alec hopes this is no longer the case. Alec hopes to win the Young Scientist Challenge to further his circular accelerator prototype. With the world's population growing at an extreme rate, Alec believes entry into space is more important than ever.
Car Temperature Sensor
Conner Pettit
2015 Finalist
Meet Conner. With soaring summer heat temperatures, Conner invented a device that measures temperature within a car and sends the information to a mobile device. Car temperatures can become much hotter than outside temperatures due to the car's ability to trap heat, and Conner's invention allows the user to know when the car is reaching dangerously hot temperatures. Conner's favorite invention in the last 100 years is the phonograph, which lead the way for the developments of recording and reproducing sound technology.
DUI Detection Using the Pupillary Reflex
Krishna Reddy
2015 Finalist
Meet Krishna. Struck with a great idea, Krishna decided the Young Scientist Challenge was a great way to demonstrate his invention to a large audience. While a breathalyzer for alcohol consumption exists, Krishna felt that there was need for a device that could detect more. Unhappy with the inability for breathalyzer to detect other substances, Krishna created a pupillary reflex computer program and apparatus that measures pupil dilation. Many drugs influence the uncontrollable movement of pupil dilation, and by detecting drugs through dilation, Krishna hopes many more preventable accidents can be stopped.
Reducing Flash Floods Using Optimal Drainage Pipe Sizes, Location and Elevation
Sanjana Shah
2015 Finalist
Meet Sanjana. After realizing the impacts of heaving rainfalls in unprepared areas, Sanjana created a program to detect where cities may need more drains and where they may need to increase current drain pipe sizes. By using pipe network analysis modeled after city drain pipe maps, Sanjana can simulate heavy rainfall to see where possible flooding may occur. Sanjana's favorite invention in the last 100 years is the Internet because it is a tool that allows for the searching, sharing and exchanging of information almost instantly. It can be used to connect globally, ranging from social media networks to aiding medical research across the world.