All Available Technologies
A low-cost telemedicine tool featuring a virtual reality (VR) interface has been designed and developed to assist with the evaluation and diagnosis of neurodegenerative disease, thereby enabling greater access to care and earlier diagnosis for patients with neurological disorders; even for those in remote areas, or with limited transportation options.
This invention provides a composition and method for effectively and responsibly degrading polymers using an enzyme. It is most applicable in hydraulic fracturing (fracking) applications in the oil and gas industry. The system has the ability to break down a wide variety of fracking polymers without the use of toxic chemicals, and has the potential to degrade other organic molecules and pollutants associated with remediation processes.
This invention combines the strengths of two commonly used mouse strains (C57BL/6J and FVB/N) to obtain a preferable nuclear genome amenable to pronuclear injection for mouse transgenesis.
The invention relates to protecting against Salmonella-type pathogens and more particularly, compositions and methods for immunizing against infection by typhoidal and non-typhoidal Salmonella serovars.
The invention consists of compounds for the treatment of parasitic diseases such as Trypanosomiasis and Leishmaniasis. Compounds are first-in-class, and selectively targeted towards pathogenic cells with nanomolar potency.
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.
This invention relates to a class of devices, the Radar Energy Absorbing Low Draw Vortex Generator (RAD-LDVG), which produce vortices over external or internal aerodynamic and/or hydrodynamic surfaces.
Most ZnO-nanostructure devices are fabricated using time-consuming nanomanipulation or one-by-one fabrication techniques, making them unattractive for large-scale production. Despite advantages in manufacturing cost and scalability, solutions-based processing has not produced high performing ZnO thin-film devices. This novel solutions-based process produces ZnO devices with shorter response times, lower device biases, and high light sensitivity.