Award Data

DESCRIPTION provided by applicant Seasonal influenza flu virus an NIAID category C priority pathogen causes widespread infection resulting in at least million cases of severe illness and deaths worldwide Young children and elderly or immunocompromised individuals are typically at greater risk of severe illness or death from influenza Newly emerging strains can result ...

DESCRIPTION provided by applicant One of the challenges of research in infectious diseases is to find ways to use the increasing knowledge of the mechanisms underlying disease transformation and progression to develop novel therapeutic strategies for diseases such as increasing menace of bacterial infections Targeting specific RNA such as rRNA which are involved in proliferation and survival ...

The US Navy faces daunting energy challenges that will further increase in severity, given the ever-increasing global demand for energy, diminishing energy supplies and demand for enhanced environmental stewardship. Navys environment foot print consists of both emissions and noise generated every day around the world. Additionally, noise is an important issue for the Navy due to the adverse effect ...

This Small Business Technology Transfer Research (STTR) Phase I project will demonstrate the technical and commercial feasibility of a puncture resistant surgical glove having areas reinforced by flexible, needle resistant nanocomposite materials made from knit textiles intercalated with shear thickening fluids (STF). STF treated textiles are a class of smart material that respond differently base ...

The broader impact/commercial potential of this project is the introduction of new generation energy storage devices that are mechanically strong, highly flexible, and high energy density. The proposed novel flexible cathode electrode technology holds the key to commercialize high performance flexible batteries. If successful, the proposed research program will generate critical knowledge for fabr ...

The broader impact/commercial potential of this Small Business Technology Transfer (STTR) Phase I project is found in the proposed technology development that facilitates direct, ubiquitous acquisition of key biomedical data, with little or no human intervention or introduction of errors, has the potential to reduce the costs of healthcare and to revolutionize healthcare delivery throughout our so ...

The broader impact/commercial potential of this Small Business Technology Transfer (STTR) Phase I project will be to provide a new and improved molecular characterization tool to be used with mass spectrometers for applications in biotechnology, pharmaceutical, forensic, clinical, environmental, food, and material sciences. Disruptive discoveries of new ionization technology for mass spectrometry ...

The broader impact/commercial potential of this project is determined by new consumer products and new industries which would flourish on portable and reliable atomic clocks, gyroscopes, and magnetometers when they become available. Proposed compact thermal and magnetic enclosure reduces the most bulky part of such devices and provides an avenue for further miniaturization. A chip-scale atomic clo ...

Pharad is teaming with the Applied Physics Laboratory of The Johns Hopkins University to propose and investigate the feasibility of wideband (VHF to SHF) RF-to-digital photonic link architectures with real-time digital signal processing (DSP) that can meet the stringent performance metrics of military systems. The key requirements for our wideband DSP linearized RF-to-digital photonic link include ...

This STTR project seeks to overcome the performance limitations of experimental sulfur tolerant SOFC materials by combining two elements of efficient SOFC design: 1) micro-tubular arrays (OD