Molecular recognition of biowarfare agents using micromechanical sensors

Hai Feng Ji; Xiaodong Yon; Jing Zhang; Thomas Thundat

doi:10.1586/14737159.4.6.859

Molecular recognition of biowarfare agents using micromechanical sensors

Hai Feng Ji
, Xiaodong Yon
, Jing Zhang
, Thomas Thundat

Department of Chemical and Biological Engineering

Louisiana Tech University

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

Recent terrorist events have demonstrated that an urgent and widespread need exists for the development of novel sensors for threat detection, especially biowarfare agents. The advent of inexpensive, mass-produced microcantilever sensors promises to bring about a revolution in detection of terrorist threats. Extremely sensitive and highly selective sensors can be developed for using a microcantilever platform. Microcantilevers undergo bending when molecules are adsorbed on a single side. For biowarfare agent detection, specificity is achieved by immobilizing antibodies on one side of the cantilever. Antigen adsorption decreases surface energy and stress, resulting in cantilever deflection.

Original language	English
Pages (from-to)	859-866
Number of pages	8
Journal	Expert Review of Molecular Diagnostics
Volume	4
Issue number	6
DOIs	https://doi.org/10.1586/14737159.4.6.859
State	Published - Nov 2004

Keywords

Adsorption-induced bending
Biowarfare agent detection
Microcantilever sensors
Nanomechanical sensing
Ricin
Tularemia

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10.1586/14737159.4.6.859

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title = "Molecular recognition of biowarfare agents using micromechanical sensors",

abstract = "Recent terrorist events have demonstrated that an urgent and widespread need exists for the development of novel sensors for threat detection, especially biowarfare agents. The advent of inexpensive, mass-produced microcantilever sensors promises to bring about a revolution in detection of terrorist threats. Extremely sensitive and highly selective sensors can be developed for using a microcantilever platform. Microcantilevers undergo bending when molecules are adsorbed on a single side. For biowarfare agent detection, specificity is achieved by immobilizing antibodies on one side of the cantilever. Antigen adsorption decreases surface energy and stress, resulting in cantilever deflection.",

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AU - Zhang, Jing

AU - Thundat, Thomas

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AB - Recent terrorist events have demonstrated that an urgent and widespread need exists for the development of novel sensors for threat detection, especially biowarfare agents. The advent of inexpensive, mass-produced microcantilever sensors promises to bring about a revolution in detection of terrorist threats. Extremely sensitive and highly selective sensors can be developed for using a microcantilever platform. Microcantilevers undergo bending when molecules are adsorbed on a single side. For biowarfare agent detection, specificity is achieved by immobilizing antibodies on one side of the cantilever. Antigen adsorption decreases surface energy and stress, resulting in cantilever deflection.

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KW - Biowarfare agent detection

KW - Microcantilever sensors

KW - Nanomechanical sensing

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KW - Tularemia

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Molecular recognition of biowarfare agents using micromechanical sensors

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Keywords

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