Award Data

Air management solutions capable of reducing heat and moisture burden are not suitable for integration in wearable respiratory protection systems due to excessive weight, volume, and power requirements of existing technologies. Vibrant Composites proposes applying its unique uMECS manufacturing technology towards development of an ultra-lightweight and power efficient miniature blower. Fundamental ...

Physical Sciences Inc. (PSI) proposes to utilize an innovative LWIR hyperspectral technology coupled with advanced data processing algorithms for non-contact, standoff detection of liquid/solid contaminants on surfaces. The technology will address the US Army"s need for fast, on-the-move, non-contact detection of ground contamination during reconnaissance missions. The Phase I effort demonstrated ...

Many protein-based drugs have limited efficacy due to a short half-life or require intravenous delivery because of low bioavailability. Extend Biosciences is developing proprietary carrier molecules that allow proteins to access an intrinsic transport pathway for efficient delivery to the vascular space and then maintain a sustained presence in circulation. This novel technology would be of partic ...

The primary goal of this proposed work is to develop a long wavelength infrared (LWIR) colloidal quantum dot (CQD)-based focal plane array (FPA) and show its feasibility when used in a camera system and a hyperspectral imaging system. Phase I results cumulated in the first-ever synthesis of photoresponsive LWIR CQDs and CQD-based photodetectors at the single device level operating at room temperat ...

In this Phase II program we will build on the promising Phase I results and further develop, optimize and integrate self-healing coatings/membranes into Chemical/Biological (CB) protective clothing to enable autonomous and rapid self-healing of cuts/tears/punctures and provide continuous protection to the warfighters. Current CB garment systems use a layer of absorptive carbon or selectively perm ...

The overall goal of the SBIR Phase II program is development, fabrication, and demonstration of a fully integrated graphene-based sensor capable of detection of different types of chemical agents in the vapor phase with better than parts per billion (ppb) sensitivity and a high degree of specificity. It should also exhibit a reversible function of the sensing element. The program will synergistica ...

OPTRA proposes the development of a high speed resonant Fourier transform infrared (FTIR) spectrometer for surface contaminant detection via thermal luminescence. The system will generate 10,000 spectra per second over the 7-14 m spectral range at 8 cm-1 spectral resolution; the NESR is projected at 4×10-9 W/(cm2•ster•cm-1) over a 100 s integration time. The key to the system is a res ...

Trace detection usually requires a vapor concentrator that collects dilute analytes from a vapor sample and delivers them at a higher concentration to the detector. Conventional vapor concentrators tend to use either cryogenics, where vapors are concentrated on a cooled surface and then desorbed via flash heating, or sorbent technology, such as zeolites, where vapors are absorbed before flash-hea ...

Spectral Sciences Inc. proposes to develop a sensor for real-time trace-level analysis of complex multicomponent gas mixtures containing Chemical Weapon (CW) agents and interferents. The approach is based on the combination of a digitally controlled widely tunable quantum cascade laser source and an advanced photoacoustic signal transducer. In Phase I, Spectral Sciences Inc. has demonstrated the ...