Award Data

a. Innovativeness of the proposed technology Forever Analytical Services (FAS) has developed particle-induced gamma-ray emissions (PIGE) spectroscopy for the high-throughput screening of per- and poly-fluoroalkyl substances (PFAS) in water. This proposal seeks to extend the utility of this technique to the field by developing a field-deployable solid phase extraction (SPE) device containing a filt ...

Antibiotic resistant bacteria have become a major concern in discharges from hospitals, wastewater treatment plants, and agricultural runoff. A quick, inexpensive, field- deployable method of detecting antibiotic resistant bacteria in these waters is desirable. Antibiotic resistant bacteria of concern include Salmonella, Staphylococci, E. coli, Enterococci, and coliform bacteria, among others. A p ...

Sunocs LLC proposes to develop a non-toxic; low cost nanocomposite flame retardant (FR) that can be used in current building materials including flexible and rigid polyurethane foam, high impact polystyrene, and expandable polystyrene. The innovation of this proposal is to use a non-toxic, larger vaporization heat agent that will form a fuel dilution protective layer which will inhabit and stop t ...

In the United States, several high profile outbreaks of waterborne illness during the past 15 years have highlighted the need for a solution to drinking water contamination. Several recent studies suggest that approximately 20 percent of surface and ground source waters in the United States are contaminated with viruses. There are very few data on virus occurrence in drinking water, however, which ...

"The ability to determine air pollutant emission quantity and emission rate are extremely important for environmental protection, policy making, and law enforcement. A pollutant emission rate can be determined by calculating the product of the airflow rate from an exhaust fan and the composition of the pollutant in the air. The pollutant may be any number of things, including particulate matters ...

In the United States, several high profile outbreaks of waterborne illness during the past 15 years have highlighted the need for solutions to drinking water contamination.  Several recent studies suggest that approximately 20 percent of the surface and ground source waters in the U.S. are contaminated with viruses.  There is very little data, however, on virus occurrence in drinking water, ...

The goal of this research project is to develop a simple, rapid, and highly automated sample collection system that will concentrate a broad range of pathogens simultaneously. The system will integrate continuous flow centrifugation (CFC) with an innovative positively charged filter so that large (i.e., protozoan parasites and bacteria) and small (i.e., enteric viruses) bioparticles can be co ...

The objective of this Phase II research project is to build upon the successful feasibility study completed during Phase I and complete the research required to commercialize functionalized silica beds for virus detection and point-of-use treatment applications. The primary objectives are to develop two products: (1) a virus “capture-and-release” bead for use in human enteric virus and co ...

The goal of this Phase I project is to develop a simple, rapid, and highly automated sample collection system that will concentrate a broad range of pathogens simultaneously. The system will integrate continuous flow centrifugation with an innovative positively charged filter so that large (i.e., protozoan parasites and bacteria) and small (i.e., enteric viruses) biologically active particles can ...

The need for a simple, reliable, efficient, and inexpensive virus capture system is an essential step for detecting viruses, such as adenoviruses, caliciviruses, coxsackieviruses, and echoviruses on the Contaminant Candidate List 2 and found in water supplies. The currently available methods are membrane-based techniques that require preconditioning water samples before filtration or expensive fi ...