Technologies by Christopher Jones
Improved Electrically Driven Temperature Swing Adsorption (ETSA) System for Faster, More Productive Direct Air Capture of Carbon Dioxide
Direct capture of CO2 from air needs to be faster, simpler, and more productive
Direct capture of CO2 from air needs to be faster, simpler, and more productive
9063
Flexible Power Generation with Negative Carbon Emissions
Uses low-cost natural gas for electricity generation while reducing CO2 in the environment
Uses low-cost natural gas for electricity generation while reducing CO2 in the environment
8834
Zeolite Membrane Sieves Fabricated on Low-Cost Alumina Hollow Fiber Substrates
For gas separation in energy production technologies
For gas separation in energy production technologies
8080, 8167
Zeolitic Nanotubes for Advanced Chemical Catalysis and Separation
One-dimensional nanotubes leverage mesopores and micropores for a wide potential range of chemical processes
One-dimensional nanotubes leverage mesopores and micropores for a wide potential range of chemical processes
8407, 8922
Hybrid Zeolitic Imidazolate Frameworks for Effective Gas Separation
New, advanced material with tunable porosity shows potential for large-scale carbon dioxide capture
New, advanced material with tunable porosity shows potential for large-scale carbon dioxide capture
5925
Low Temperature Extraction of Hydrogen From Biomass
A method of using sawdust as a renewable source of hydrocarbons for hydrogen production
A method of using sawdust as a renewable source of hydrocarbons for hydrogen production
3949