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Available Technologies

Title Date Posted Sort ascending Patent Information Opportunity
Mixed Matrix Membranes with Improved Gas Separation Properties USPN 9,597,643

Research is active on the technology titled, "Surface Functionalization of Metal Organic Frameworks for Mixed Matrix Membranes." This technology is available for licensing and/or further collaborative research from the U.S. Department of Energy’s National Energy Technology Laboratory.

Embedded Gas and Temperature Sensors for Extreme Environments USPN 8,411,275; USPN 8,638,440; USPN 8,741,657; USPN 8,836,945; USPN 9,568,377; USPN 9,019,502; USPN 9,964,494

Research is active on optical sensors integrated with advanced sensing materials for high temperature embedded gas sensing applications. A portfolio of patented technologies are available for licensing and/or further collaborative research from the U.S. Department of Energy’s National Energy Technology Laboratory (NETL). Organizations or individuals with capabilities in optical sensor packaging for harsh environment and high temperature applications are encouraged to contact NETL to explore potential collaborative opportunities.

Thin Ionic Liquid Film Deposition within Porous Substrates USPN 9,186,854

NETL researchers are currently developing ionic liquid technologies for application to carbon capture or other separation processes. Ionic liquids can function as a platform for an amazingly diverse set of applications, including batteries, processing of polymers and cellulose, waste water treatment, and gas separation. These technologies are available for licensing and/or collaborative research opportunities between interested parties and the U.S. Department of Energy’s National Energy Technology Laboratory.

Separation of CO2 From Multi-Component Gas Streams USPN 8,771,401

Research is active on the patented technology, titled "Apparatus and Process for the Separation of Gases Using Supersonic Expansion and Oblique Shock Wave Compression.” This technology is available for licensing and/or further collaborative research from the U.S. Department of Energy’s National Energy Technology Laboratory.

Spheroid-Encapsulated Ionic Liquids for Gas Separation USPN 9,050,579

An innovative approach has been developed allowing the use of high viscosity for gas separations. The method involves the encapsulation of ionic liquids (ILs) into polymer spheroids, taking advantage of the gas-absorbing properties and cost-effectiveness of ILs, while circumventing known IL viscosity issues. Significantly, the process permits optimization or ‘tuning’ of the IL-containing spheroids for specific gas separation applications. This technology is available for licensing and/or further collaborative research with the U.S. Department of Energy’s National Energy Technology Laboratory.

Pyrochlore-Based Catalysts for Syngas-Derived Alcohol Synthesis USPN 9,150,476; USPN 9,598,644

This technology provides an advantageous means to convert syngas into a class of chemicals known as higher oxygenates, as well as other long-chain hydrocarbons. Research is currently active on this technology "Method of CO and/or CO2 Hydrogenation Using Doped Mixed Metal Oxides." This technology is available for licensing and/or further collaborative research from the U.S. Department of Energy’s National Energy Technology Laboratory.

Method to Improve Steel Creep Strength by Alloy Design and Heat Treatment USPN 9,181,597; USPN 9,556, 503

Research is active on the development and refinement of metallurgical processes for improving alloy performance under extreme operating conditions found in fossil energy power plants. These inventions are available for licensing and/or further collaborative research from the U.S. Department of Energy’s National Energy Technology Laboratory.

Nano-Structured Nobel Metal Catalysts for Hydrocarbon Reforming USPN 9,132,416

Research is active on the technology, titled "Nano-Structured Nobel Metal Catalysts Based on Hexametallate Architecture for the Reforming of Hydrocarbon Fuels." This technology is available for licensing and/or further collaborative research from the U.S. Department of Energy’s National Energy Technology Laboratory.

Regenerable Mixed Copper-Iron-Inert Support Oxygen Carriers for Solid Fuel Chemical Looping Combustion Process USPN 9,523,499

This technology, "Regenerable Mixed Copper-Iron-Inert Support Oxygen Carriers for Solid Fuel Chemical Looping Combustion Process," provides a metal-oxide oxygen carrier for application in fuel combustion processes that use oxygen. This technology is available for licensing and/or further collaborative research with the U.S. Department of Energy’s National Energy Technology Laboratory.

Radial Flow Pulse Jet Mixer USPN 8,469,583

Research is currently active on the patented technology "A Process for the Mixing of Heavy Solid Particulate Matter in a Lighter Liquid Carrier Fluid Using an Inverted Pulsed Jet Mixing Apparatus." The technology is available for licensing and/or further collaborative research from the U.S. Department of Energy's National Energy Technology Laboratory.