S. Johnson scite author profile

A novel approach to covalently attached polymer films by surface functionalization and hydrosilylation reaction with reactive polymers on the surface is reported. Stable, uniform, and highly sensitive thin film sensors can thus be fabricated. The covalent attachment of polymer through a silane linker results in films with high uniformity, stability, and reasonable reproducibility as far as film thickness is concerned. Incorporation of molecular recognition reagents into the sensing film increases the sensor sensitivity dramatically, which is critical for detecting vapors such as certain explosives at parts per thousand or parts per billion levels. The sensors fabricated can detect o-nitrotoluene, a TNT simulant, at parts per billion concentrations.

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Cyclodextrin-Based Microsensors for Volatile Organic Compounds

Swanson

Johnson

Shi

et al. 1998

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Publication in ACS Symposium SeriesL O~ Alamos Nahonal Laboratory, an affirmattve action/equal opportunity empldyer. is operated by the University of California for the U S Department of Energy under contractw-7405-ENG-36 By acceptance of this aacle, the publisher recognizes that the U S Government retains a nonexclusive. royalty-free license to publish or reproduce the published form o f this contnbution. or to allow others to do so, for U S Government purposes The Los Alamos National Laboratory requests that the publisher dentify this article as work performed under the auspices of the U S Department of Energy Form NO 836 R5STSB i e m

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Molecular host siloxane thin films for surface acoustic wave chemical sensors

Yang

Shi

Johnson

et al. 1997

Sensors and Actuators B: Chemical

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S. Johnson

Polyelectrolyte and molecular host ion self-assembly to multilayer thin films: An approach to thin film chemical sensors

Control of selected physical properties of MX solids: an experimental and theoretical investigation

Growth of Ultrathin Covalently Attached Polymer Films: Uniform Thin Films for Chemical Microsensors

Cyclodextrin-Based Microsensors for Volatile Organic Compounds

Molecular host siloxane thin films for surface acoustic wave chemical sensors

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