Remote Sensing Using an Airborne Biosensor

There is no current method for remote identification of aerosolized bacteria. In particular, such a capability is required to warn of a biological warfare attack prior to human exposure. A fiber optic biosensor, capable of running four simultaneous immunoassays, was integrated with an automated flui...

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Veröffentlicht in:	Environmental Science and Technology 1998-08, Vol.32 (16), p.2461-2466
Hauptverfasser:	Ligler, Frances S, Anderson, George P, Davidson, Peggy T, Foch, Richard J, Ives, Jeffrey T, King, Keeley D, Page, Greg, Stenger, David A, Whelan, James P
Format:	Artikel
Sprache:	eng
Schlagworte:	AIR SAMPLERS Analysis methods Applied sciences Atmospheric pollution Bacteria Bioassay Biological & chemical weapons Biological and medical sciences BIOLOGICAL WARFARE AGENTS Biosensors Biotechnology Environment Exact sciences and technology Fiber optic sensors FIBER OPTICS Fundamental and applied biological sciences. Psychology IMMUNOASSAY Methods. Procedures. Technologies MILITARY TECHNOLOGY, WEAPONRY, AND NATIONAL DEFENSE Pollution PORTABLE EQUIPMENT REMOTE SENSING Sensors Various methods and equipments
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container_end_page	2466
container_issue	16
container_start_page	2461
container_title	Environmental Science and Technology
container_volume	32
creator	Ligler, Frances S Anderson, George P Davidson, Peggy T Foch, Richard J Ives, Jeffrey T King, Keeley D Page, Greg Stenger, David A Whelan, James P
description	There is no current method for remote identification of aerosolized bacteria. In particular, such a capability is required to warn of a biological warfare attack prior to human exposure. A fiber optic biosensor, capable of running four simultaneous immunoassays, was integrated with an automated fluidics unit, a cyclone-type air sampler, a radio transceiver, and batteries on a small, remotely piloted airplane capable of carrying a 4.5-kg payload. The biosensor system was able to collect aerosolized bacteria in flight, identify them, and transmit the data to the operator on the ground. The results demonstrate the feasibility of integrating a biosensor into a portable, remotely operated system for environmental analysis.
doi_str_mv	10.1021/es970991p
format	Article
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subjects	AIR SAMPLERS Analysis methods Applied sciences Atmospheric pollution Bacteria Bioassay Biological & chemical weapons Biological and medical sciences BIOLOGICAL WARFARE AGENTS Biosensors Biotechnology Environment Exact sciences and technology Fiber optic sensors FIBER OPTICS Fundamental and applied biological sciences. Psychology IMMUNOASSAY Methods. Procedures. Technologies MILITARY TECHNOLOGY, WEAPONRY, AND NATIONAL DEFENSE Pollution PORTABLE EQUIPMENT REMOTE SENSING Sensors Various methods and equipments
title	Remote Sensing Using an Airborne Biosensor
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