Scott P. Veitch scite author profile

Scott P. Veitch

5Publications

26Citation Statements Received

23Citation Statements Given

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Affiliations

Naval Undersea Warfare Center, University of Rhode Island

Publications

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Detection of Explosives in a Dynamic Marine Environment Using a Moored TNT Immunosensor

Charles

Adams

Deschamps

et al. 2014

Sensors

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Abstract:A field demonstration and longevity assessment for long-term monitoring of the explosive 2,4,6-trinitrotoluene (TNT) in a marine environment using an anti-TNT microfluidic immunosensor is described. The TNT immunosensor is comprised of a microfluidic device with 39 parallel microchannels (2.5 cm × 250 µm × 500 µm, L × W × D) fabricated in poly(methylmethacrylate) (PMMA), then chemically functionalized with antibodies possessing a high affinity for TNT. Synthesized fluorescence reporter complexes used in a displacement-based assay format were used for TNT identification. For field deployment the TNT immunosensor was configured onto a submersible moored steel frame along with frame controller, pumps and TNT plume generator and deployed pier side for intermittent plume sampling of TNT (1h increments). Under varying current and tidal conditions trace levels of TNT in natural seawater were detected over an extended period (>18 h). Overnight operation and data recording was monitored via a web interface.

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REMUS100 AUV with an integrated microfluidic system for explosives detection

et al. 2013

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Quantitating explosive materials at trace concentrations in real-time on-site within the marine environment may prove critical to protecting civilians, waterways, and military personnel during this era of increased threat of widespread terroristic activity. Presented herein are results from recent field trials that demonstrate detection and quantitation of small nitroaromatic molecules using novel high-throughput microfluidic immunosensors (HTMI) to perform displacement-based immunoassays onboard a HYDROID REMUS100 autonomous underwater vehicle. Missions were conducted 2-3 m above the sea floor, and no HTMI failures were observed due to clogging from biomass infiltration. Additionally, no device leaks were observed during the trials. HTMIs maintained immunoassay functionality during 2 h deployments, while continuously sampling seawater absent without any pretreatment at a flow rate of 2 mL/min. This 20-fold increase in the nominal flow rate of the assay resulted in an order of magnitude reduction in both lag and assay times. Contaminated seawater that contained 20-175 ppb trinitrotoluene was analyzed.

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Sustained, autonomous coastal nutrient observations aboard moorings and vertical profilers

Egli¹,

Veitch²,

Hanson³

2009

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Explosives detection in the marine environment using UUV-modified immunosensor

Charles

Adams

Deschamps

et al. 2011

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Submerged explosives detection platforms using immunosensing technology

Veitch¹,

Fratantonio²,

Egli³

et al. 2011

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Scott P. Veitch

Detection of Explosives in a Dynamic Marine Environment Using a Moored TNT Immunosensor

REMUS100 AUV with an integrated microfluidic system for explosives detection

Sustained, autonomous coastal nutrient observations aboard moorings and vertical profilers

Explosives detection in the marine environment using UUV-modified immunosensor

Submerged explosives detection platforms using immunosensing technology

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