The $25,000 grants offered by the Rice Office of Technology Transfer are awarded to faculty interested in commercializing their research, and are intended to help develop technologies that could lead to filing for a patent or licensing opportunities.
Kevin McHugh, an assistant professor of bioengineering, will develop a method to automate an encapsulation process that uses biodegradable microparticles in the timed release of drugs to treat cancer and prevent infectious disease. He suggested the process could help ramp up the manufacture of accessible multidose vaccines.
Daniel Preston, an assistant professor of mechanical engineering, is creating a novel filtration system that will recover water typically released by cooling towers at natural gas power plants. The inexpensive filters will result in a significant savings in water costs during power generation.
Geoff Wehmeyer, an assistant professor of mechanical engineering; Matteo Pasquali, the A.J. Hartsook Professor of Chemical and Biomolecular Engineering and a professor of chemistry and materials science and nanoengineering; Junichiro Kono, the Karl F. Hasselmann Chair in Engineering, a professor of electrical and computer engineering, physics and astronomy and materials science and nanoengineering and chair of the applied physics program, and Glen Irvin Jr., a research professor in chemical and biomolecular engineering, are creating a solid-state, active heat-switching device to enable the rapid charging of batteries for electric vehicles. The lightweight device will use carbon nanotube fibers to optimize battery thermal management systems not only for cars but also, eventually, for electronic devices like laptops.
Xia Ben Hu, an associate professor of computer science, is developing his open-source machine learning system to democratize and accelerate small businesses’ digital transformation in e-commerce.
Bruce Weisman, a professor of chemistry and of materials science and nanoengineering, and Satish Nagarajaiah, a professor of civil and environmental engineering and of mechanical engineering, are working to advance their strain measurement system based on the spectral properties of carbon nanotubes. The system will allow for quick measurement of strain to prevent catastrophic failures and ensure the safety of aircraft, bridges, buildings, pipelines, ships, chemical storage vessels and other infrastructure.
Aditya Mohite, a professor of chemical and biomolecular engineering and associate professor of materials science and nanoengineering, and Michael Wong, the Tina and Sunit Patel Professor in Molecular Nanotechnology, a professor and chair of chemical and biomolecular engineering and a professor of chemistry, materials science and nanoengineering and of civil and environmental engineering, are scaling up novel photoreactors for the environmentally friendly generation of hydrogen. Their process combines of perovskite-based solar cells and state-of-the-art catalysts.
Rebekah Drezek, a professor of bioengineering, and Richard Baraniuk, the C. Sidney Burrus Professor of Electrical and Computer Engineering and a professor of statistics and computer science, are developing a system to rapidly diagnose sepsis using microfluidics and compressed sensing to speed the capture and analysis of microbial biomarkers.
Fathi Ghorbel, a professor of mechanical engineering and of bioengineering, is working on robotic localization technology in GPS-denied environments such as aboveground storage tanks, pressure vessels and floating production storage and offloading tanks. The system would enable robots to precisely associate inspection data to specific locations leading to efficiency and high quality of inspection and maintenance operations where regular inspections are required. This will dramatically improve the environmental impact and safety of these assets.
Kai Fu, a research scientist, and Yuji Zhao, an associate professor of electrical and computer engineering, are working to commercialize novel power diodes and transistors for electric vehicles. They expect their devices to reduce the volume of power systems while improving integration, power density, heat dissipation, storage, and energy efficiency.