Award Data

DNA microarray technology, in combination with statistical and predictive modeling tools, could be used to evaluate thousands of genes against distinct gene expression patterns induced by chemical/biological agents to provide early identification and speed therapeutic intervention. The overall objective of this Phase II effort is to leverage existing public domain resources and commercial tools t ...

This SBIR Phase I proposal to FHWA requests support for Elliott Technologies, Inc. to demonstrate the feasibility of using a handheld device or a single board computer to verify a simple interface between a user and simulated Safety Warning System messages, Simulated dedicated short range communications, and simulated High accuracy nationwide differential GPS. The significance of this proposal wi ...

78925B ¿Clean energy¿ is attracting more and more interest, which in turn exerts cost pressure on photovoltaic (PV) manufacturers for more efficient solar panel production. This project will develop a cost-effective technology to produce PV-grade silicon wafers. In particular, a reuseable crucible will be developed for the production of high purity, low oxygen content crystalline silicon ingot ...

75655S The photovoltaics (PV) industry is having difficulty finding enough raw materials to match its rapid growth. In addition, traditional sources of secondary grade polysilicon are no longer readily available at inexpensive prices. Reducing the cost of solar silicon wafers is the key to lowering the price of crystalline silicon solar cells. This project will develop a single-step wafer fabr ...

Manning Applied Technology proposes to develop a handheld infrared spectrometer, ideally suited to detection of airborne chemical agents at and below permissible exposure limits. This approach offers unmatched sensitivity and specificity for detection of all types of chemical vapors. The instrument is modular, rugged, compact and highly sensitive. Volume pricing will be less than $1000 each. ...

78845S The Department of Energy desires to increase fuel efficiency by reducing vehicle weight. Carbon fiber composites offer one promising way to do this, but difficulties in building economical, consistent, high quality preforms has limited the introduction of this material. This project will to adapt a well established pulp molding technology to produce carbon fiber preforms for lightweight ...

78790S The current method for germanium isotope separation, needed for rare particle and rare decay searches in nuclear physics research, is electromagnetic separation using calutrons, a process that has the disadvantage of low separation capacity and high energy cost. This project will build a cryogenic distillation column in which larger quantities of germanium isotopes can be separated at a s ...

The current methodology for testing the penetration resistance of textile materials to various chemical agents has a number of drawbacks, including significant uncertainties in the resulting data, inefficiency and expense, risk to test personnel, and limited range of test conditions. The objective of the proposed work is to apply unique computer models for textiles with accompanying experimental ...

79454S Despite advances in modern electron optics, which have permitted observation with unprecedented resolutions, most materials science research involves the quantification of static properties of materials. This is mostly due to limitations in modern day equipment and the time and cost associated with modifying existing microscopes. Consequently a need exists to extend the current ability t ...

Effective collective protection fabrics must have a reliable closure system. During our Phase I Work Plan, Sigma-K began developing a Hermetic Textile Closure Hardware (HATCH) system. The HATCH combines both a magnetic and geometric self locking mechanism that will provide a hermetic seal when closed. Our current Phase I successes include developing self closing samples that can provide a hermetic ...