Award Data

The overall goal of this SBIR is to develop, verify, validate and deliver an analysis tool enabling researchers to use pulse voltammetry methods for enhanced understanding and accelerated development of electrochemical systems. Pulse voltammetry techniques provide high detection sensitivity, discrimination against charging currents, and information sufficient for mechanism identification and extra ...

Pulsed voltammetry is a characterization tool for electrochemical systems that has been around for many decades. Unlike the more commonly used cyclic voltammetry techniques, the additional degrees of freedom intrinsic to pulsed voltammetry techniques permit the decoupling of reaction kinetics from diffusion, and allow for the precise measurement of a range of reaction parameters, including the hal ...

Non-traditional interior roof military vehicle impact injury prevention technologies address the challenge to provide warfighter survivability, allowing them to complete their mission, by preventing impact related injuries such as skull fractures and neck injuries, otherwise incurred during underbody blast, crash and rollover events. The solution accounts for the full range of occupants to include ...

Additive manufacturing (AM) is a novel process of fabricating components in a layer-by-layer method under the control of computer-aided design (CAD) information, rather than by the traditional use of casting molds and forming dies. Integrated Computational Materials Engineering (ICME) methodologies are effective tools to reconfigure the materials development process and accelerate implementation o ...

We present a concept for improving standoff ground penetrating radar capabilities for detecting buried explosive hazards (BEH). Currently, standoff detection capabilities are limited to forward looking systems, which provide limited penetration of the ground surface due to the low grazing angle required for forward looking standoff detection. Additionally, forward looking arrays are somewhat limit ...

Real-time monitoring of wastewater quality remains an unsolved challenge in the treatment industry. The standard method of biological oxygen demand (BOD) yields slow results (five days); another standard method, chemical oxygen demand (COD), uses hazardous chemicals and does not provide direct information on potential for ecological pollution. The treatment industry has expressed need for the deve ...

In this Phase II project, Akita Innovations will improve the performance of our polymeric antifog coating with respect to antifog performance, abrasion resistance, and manufacturability. We will demonstrate a manufacturable material and process that meets all Army MIL-PRF-32432 requirements for protective eyewear, with superior antifog performance compared to existing products, and supply the Army ...

The Sky Polarization Azimuth Sensing System (SkyPASS) exploits naturally occurring sky polarization to measure absolute heading and offers significant performance enhancement over current azimuth sensing systems such as digital compasses or ring laser gyros. The SkyPASS system is a passive optical sensor that can operate at 10s of Hz, has no warm-up or calibration time, does not require leveling, ...

Precision Combustion, Inc. (PCI) developed and demonstrated an extremely compact Microlith based reformer for enabling effective and efficient SOFC operation with up to 3000 ppmw sulfur JP8 or diesel fuels. The reformer is based upon PCIs novel sulfur tolerant Microlith catalyst and reactor designs. In Phase I, potential system solutions for 10 kWe APU system were evaluated and water neutral desig ...

The goal of this program is to develop an autonomous, hover-capable, flying robot with an onboard chemical sensor chip for chemical surveillance and environmental monitoring. The key capabilities of this integrated system will be, in order of priority: 1. Real-time chemical sensing and data transfer to a base station. The final platform will detect and identify airborne chemicals using the Mole ...