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Researcher
- Adam M Guss
- Costas Tsouris
- Radu Custelcean
- Tomonori Saito
- Alexey Serov
- Canhai Lai
- Carrie A Eckert
- David L Wood III
- Diana Stamberga
- Felipe Polo-Garzon
- Gabriel M Veith
- Gyoung Gug Jang
- Ilias Belharouak
- James E Parks II
- Jay D Huenemann
- Jeffrey C Foster
- Jun Qu
- Jun Yang
- Junyan Zhang
- Kai Li
- Keju An
- Nandhini Ashok
- Ramesh R Bhave
- Sheng Dai
- Syed Z Islam
- Xiang Lyu
- Yasemin Kaygusuz
- Zhenzhen Yang
- Zhijia Du
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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.
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Selenate and selenite oxyanions are crystallized together with sulfate anions using ligands. In this approach, we will take advantage of the tendency of these similar oxyanions to co-precipitate into crystalline solid solutions.
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We have developed bacterial strains that can convert sustainable feedstocks and waste feedstocks into chemical precursors for next generation plastics.
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Nearly all electrochemical approaches to CO2 conversion rely on traditional fuel cell type electrocatalysis where CO2 is bubbled through acidic or basic media. The resulting electrochemistry leads to excessive generation of H2 over micromoles of CO2 conversion.
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A novel molecular sorbent system for low energy CO2 regeneration is developed by employing CO2-responsive molecules and salt in aqueous media where a precipitating CO2--salt fractal network is formed, resulting in solid-phase formation and sedimentation.
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We have identified a panel of novel nylon hydrolases with varied substrate and product selectivity.
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The present innovation discloses a way of improving ethanol to butanol reaction by in-situ water removal. The disclosure here discusses systems to enable the process.
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This invention describes a class of chelators that can bind a diverse set of medical radioisotopes, including but not limited to the alpha-emitting radioisotope Ac-225 and the beta-emitting radioisotope Lu-177.