This is a novel seedless floating growth technique for synthesis of a variety of hybrid nanostructures on graphene, primarily for electronic and optoelectronic applications.
This method utilizes a novel solid catalyst made specifically for olefin epoxidation. The catalyst utilizes a base in order to allow hydrogen peroxide to be utilized as an oxidant. Further the system allows for a constant flow of feedstock to flow through the catalyst with minimal leaching of the metal from the catalyst allowing for a longer life of the catalyst.
Method for converting lignin biomass to aromatic compounds using a novel mesoporous acid catalyst.
A novel thin-film single-offset superlattice photovoltaic technology with superior performance and low fabrication cost through use of pulsed laser deposition (PLD) manufacturing methods and lower cost materials.
A novel low-cost method for fabricating high-performance plasmonic graphene for use in thin-film photovoltaic devices and other optoelectronics.
The Surface Modified Ceramic Filter (SMCF) provides an inexpensive gravity filtration device for the removal of inorganic chemicals, organic chemicals, and pathogens from water. The surface modification is easily incorporated into traditional ceramic production methods, making this filter ideal for both industrial mass-production and remote operations in developing countries.
This invention uses a photoactive element between graphene electrodes to create a photovoltaic device that not only produces electricity from sunlight, but also transmits its infrared energy for use in an attached thermal energy device.
A multifunctional photovoltaic-battery (PVB) which represents a new-concept integrated PVB device as a novel power source for photoelectron conversion and energy storage within one single device.
The current invention is a method for using inexpensive and widely available silica nanoparticles as a fluid loss prevention agent and nanoproppant to maintain micro-fractures during hydraulic fracturing (fracking) to extract oil or natural gas from a variety of geological formations.
KU research has identified combinations of surfactants and polyelectrolyte nanoparticles that improve the stability of CO2 foam for enhanced oil recovery (EOR).