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Your Environment. Your Health.


Superfund Research Program

Gold Nanoparticle-Based Mercury Analyzer for On-Site Measurement of Soil and Sediment

Project Leaders: Jay James, Jeff Crosby, Don Lucas
Grant Number: R43ES023729
Funding Period: Phase I: May 2014 February 2015
View this project in the NIH Research Portfolio Online Reporting Tools (RePORT)

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Picoyune is developing and testing the feasibility of nanoparticle- based mercury sensors for on-site measurements. Their focus is on adapting the technique to accommodate soil and sediment samples from contaminated sites. Immediate, highly accurate, and sensitive measurements of mercury contamination at sites are the best option. But the high-cost, low portability, and low sensitivity of the available instruments often force investigators to collect samples and send them to labs to be analyzed.

Gold nanoparticle-based plasmonic mercury sensing is inexpensive, ultra-sensitive, and ideal for portable applications. Using off-the-shelf components, Picoyune is designing and building a lightweight (<20 lbs) and low power sensor that can replace time consuming and costly laboratory methods. The prototype sensor is being tested for feasibility and compared to the other commercial options. The development of such a commercial analyzer will benefit those parties concerned with monitoring and remediation of contaminated sites as well as all groups who monitor mercury. Mercury monitoring costs hundreds of millions of dollars each year across diverse scientific, regulatory, and industrial groups. The fundamental issue they all face is protecting human health and the environment from the risks of mercury pollution.

Development of the sensor is helping to improve the understanding of mercury's complicated biogeochemical cycle and to characterize the extent of contamination in the environment. Inexpensive and sensitivity techniques are needed to inform global efforts to protect human and ecological health from this known neurotoxin.

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