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Grantee Research Project Results

A Low-Cost Chemosensor for Measuring Phosphate in Water and Soil

EPA Contract Number: EPD07048
Title: A Low-Cost Chemosensor for Measuring Phosphate in Water and Soil
Investigators: Coleman, Thomas E.
Small Business: dTEC Systems LLC
EPA Contact: Richards, April
Phase: I
Project Period: March 1, 2007 through August 31, 2007
Project Amount: $70,000
RFA: Small Business Innovation Research (SBIR) - Phase I (2007) RFA Text |  Recipients Lists
Research Category: SBIR - Animal Waste and Waste to Energy , Small Business Innovation Research (SBIR)

Description:

The proposed Phase I SBIR project is expected to lead to the development of a low-cost portable instrument capable of making real-time measurements of phosphate in water and soil samples. The sensor system for this instrument will be based on the highly selective phosphate binding properties of a co-polymer to be synthesized in this research. In many areas, the rapid growth and intensification of crop and animal farming, including confined animal feeding operations (CAFOs), has created regional and local imbalances in phosphorus inputs and outputs. When phosphorus is released into water bodies with adequate nitrogen available, eutrophication is likely to result. Eutrophication has been identified as the main cause of impaired surface water quality in the United States. Concentrations of phosphate in solution are usually small, and time is often a critical factor in taking measurements because the inorganic phosphate in a water sample is changing as a result of biological processes. Because of these factors, there is a need for sensitive, inexpensive, and portable instruments to monitor the eutrophication process effectively. Currently available instruments for making phosphate measurements in the field do not adequately address these needs.

The sensor to be developed in this Phase I research will be based on a commercially available microfabricated fringing electric field (FEF) substrate coated with the phosphate-binding polymer. The substrate electrode periodicity will be in the low microns range. By incorporating nanofabrication techniques in the Phase II portion of this research, it will be possible to design and fabricate smaller electrode structures. This will allow us to enhance the sensitivity of the sensor system by tuning the electric field pattern generated by the FEF sensor to the dimensions of the proposed phosphate-binding polymer coatings.

The key result needed to support the development of a prototype instrument will be the demonstration of binding selectivity for phosphate. A chemosensor, to be developed on the basis of this selectivity, would be relatively inexpensive, would require no chemical reagents, and could easily be installed in the field for continuous and/or remote monitoring applications. It would be a valuable tool that could aid researchers, CAFOs, and farmers in the development of improved phosphorus management practices through an interdisciplinary effort involving soil scientists, hydrologists, agronomists, limnologists, and animal scientists. Additional commercial opportunities are possible for wastewater treatment process control and other environmental monitoring applications.

Supplemental Keywords:

small business, SBIR, EPA, confined animal feeding operations, CAFOs, chemosensors, phosphate sensors, wastewater treatment,, RFA, Scientific Discipline, Sustainable Industry/Business, Sustainable Environment, Technology for Sustainable Environment, Environmental Monitoring, CAFOs, chemical sensors, euthrophication

Progress and Final Reports:

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    The perspectives, information and conclusions conveyed in research project abstracts, progress reports, final reports, journal abstracts and journal publications convey the viewpoints of the principal investigator and may not represent the views and policies of ORD and EPA. Conclusions drawn by the principal investigators have not been reviewed by the Agency.

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    Last updated April 28, 2023
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