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ORNL has developed bacterial strains that can utilize a common plastic co-monomer as a feedstock. This will help enable modern, petroleum-derived plastics to be converted into value-added chemicals.
In manufacturing parts for industry using traditional molds and dies, about 70 percent to 80 percent of the time it takes to create a part is a result of a relatively slow cooling process.
We have developed bacterial strains that can convert sustainable feedstocks and waste feedstocks into chemical precursors for next generation plastics.
ORNL has identified a panel of novel nylon hydrolases with varied substrate and product selectivity.
This technology combines 3D printing and compression molding to produce high-strength, low-porosity composite articles.
Genetic modification of microbes that are thermophiles—ones that grow at elevated temperatures—is extremely challenging. Tools developed for E. coli, a typical host for protein production, typically do not function at elevated temperatures.
Simurgh revolutionizes industrial CT imaging with AI, enhancing speed and accuracy in nondestructive testing for complex parts, reducing costs.
An innovative system for automating the surveillance and manipulation of plant tissues using advanced machine vision and robotic tools.
An innovative low-cost system for in-situ monitoring of strain and temperature during directed energy deposition.