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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
Techniques for synthesizing regenerable single-atom catalysts are described.
The invention provides a system having a catalyst for CO2 reduction to hydrocarbon.
Engineered microorganisms with altered expression of genes encoding the proteins PP_3350 and PP_3349
The invention relates to engineered microorganisms with altered expression of genes encoding a protein.
The invention provides a method for synthesis of diglycolamides.
The solution is illustrated in Figure 1. In general, the goal is to protect genomes from unwanted genome editing by CRISPR-Cas systems.
The invention relates to an additive for diesel and biodiesel to inhibit microbial degradation and fouling of storage.
ORNL researchers have developed a process to selectively capture carbon dioxide, sorb it to a catalytic active site, convert it to a product under low temperatures with high efficiency, and desorb from the material to separate it more cost efficiently and at higher purity.
The invention provides a method for extracting lithium from lithium containing solutions.
The invention provides an electrolyte for certain anodes for secondary batteries.
The invention provides an enzyme that converts a model lignin dimer into vanillin and then into muconic acid.