In the Spring of 2018, the Amazon Catalyst program awarded $177,735 in grants to 10 Washington State University teams comprised of students, faculty and staff across disciplines and locations.
The collaborative program between Amazon and WSU launched early in 2018 to fund up to $300,000 for projects deemed globally impactful and disruptive. Funded projects range from low-cost and environmentally-friendly material for road maintenance; to technology to help protect bees from pesticide exposure, preventing bee death and colony collapse; to soil microbes used as bio-pesticides to protect crops from devastating pests; to a new building material made from gypsum wallboard scrap, and many more innovative ideas.
WSU’s goal, throughout each stage of the application cycle, is to attract innovative solutions to problems from students, faculty and staff representing a variety of academic units, with an emphasis on multidisciplinary teams. Funded projects represent civil and environmental engineering, computer science, mechanical and materials engineering, plant pathology, biological systems engineering, chemical engineering, global health, business, and design and construction.
The 2018 grant recipients and their winning projects are:
LOW-COST, ENVIRONMENTALLY-CONSCIOUS MATERIALS FOR ROAD MAINTENANCE
- Recycled restaurant cooking oil waste and reclaimed asphalt are combined into a low-cost, recycled road paving material.
- Kun Zhang, clinical assistant professor, Department of Civil and Environmental Engineering.
BIO-PESTICIDES PROTECTING CROPS FROM DEVASTATING PESTS
- An environmentally safer way to protect crop yield and quantity using bio-pesticides to fight underground crop pests.
- Lei Zhang, research associate, Department of Plant Pathology.
REDUCING BEE MORTALITY AND COLONY COLLAPSE THROUGH PESTICIDE FIGHTERS
- A combination of microparticles mixed with bee feed that protects bees from the harmful effects of encountering pesticides during pollination.
- Waled Suliman, postdoctoral student, School of Biological Systems Engineering.
NEW WOUND DRESSING FOR ADVANCED WOUND MANAGEMENT
- An electrochemical scaffold wound dressing that treats infections and stimulates healing by continuously generating antimicrobial agents in wounds.
- Abdelrhman Mohamed, Ph.D. graduate student, Gene and Linda Voiland School of Chemical Engineering and Bioengineering.
THE FIRST HYBRID HYDROGEN FUEL CELL ELECTRIC VEHICLE IN THE PACIFIC NORTHWEST
- Retrofitting of an existing battery-electric Zenn car to enable recharging with a modular, on-board, hydrogen fuel-cell system.
- Jacob Leachman, associate professor, School of Mechanical and Materials Engineering.
MEDICAL CONDITION-SPECIFIC AIR QUALITY FORECASTS AND WARNINGS
- The Cardiopulmonary Events from Smoke Estimator (CENSE) will evaluate smoke particulate pollution information and convert it into air quality forecasts for medical condition specific warnings, and deliver these warning to caregivers and patients in high-risk populations.
- Joseph Vaughan, associate research professor, Department of Civil and Environmental Engineering.
DRYWALL WASTE BLOCK: A NEW BUILDING MATERIAL
- The Drywall Waste Block converts low-value gypsum wallboard scrap waste into a high performance building material that is inexpensive to produce, easy to build with and provides energy-efficient and affordable homes for people in need.
- Taiji Miyasaka, professor of architecture, School of Design and Construction.
KULÉ© TECH: SMART-THERMOMETERS FOR SAFER MILK
- Creating and deploying smart-thermometers among the pastoral Maasai in Tanzania to increase milk pasteurization knowledge and habits through the use of culturally-targeted solution that limits the transmission of antimicrobial resistance among the tribes, making milk safer and people healthier.
- Mark Caudell, postdoctoral research associate, Paul G. Allen School for Global Animal Health.
- An accurate and efficient way to retrieve information and dispatch it effectively in an emergency situation.
- Shusanta Bhattarai, undergraduate computer science student, Voiland College of Engineering and Architecture.
- An app for epinepherine users that helps people with severe allergies and reactions to track their EpiPens, manage their medication supply and notify caretakers of a reaction emergency.
- David Kurz, undergraduate entrepreneurship student, Carson College of Business.
Learn more about grant recipients and keep up on project updates at https://catalyst.amazon.com/wsu.