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A DNA editing tool adapted by ORNL makes engineering microbes for everything from bioenergy production to plastics recycling easier and faster.
Justin Kennemur is leading the synthesis efforts aimed at creating novel materials that can replace today’s fluorine-based polymer membranes.
A team experimentally observed silicon-rich crystal formation in iron-hydrogen alloy liquid at conditions expected for the Earth’s outer core.
The research studies and manipulates fractionally charged anyons in fractional quantum Hall regime, a testbed for exploring the impact of topology.
The opportunity connects attendees with professional leaders to learn about career paths through activities, discussions, lab tours and career talks.
The study outlines the carbon-removing potential of six different methods, from restoring deforested lands to enhanced weathering.
A UT Austin-led team links supercomputer simulations and material fabrication to advance light-related devices.
An ISU professor will transition their simulations of atomic nuclei from high-performance, classical computers to next-generation quantum computers.
Scientists have developed a method for better understanding the electrochemical reactions that occur at the interface of water & metal surfaces.
A research team supported by Q-NEXT demonstrates a new way to use quantum sensors to tease out relationships between microscopic magnetic fields.