Bart A. Grinwald scite author profile

Bart A. Grinwald

4Publications

72Citation Statements Received

19Citation Statements Given

How they've been cited

103

How they cite others

Affiliations

Platypus Technologies (United States)

Publications

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Liquid crystal-based sensors for selective and quantitative detection of nitrogen dioxide

Sen

Kupcho

Grinwald

et al. 2013

Sensors and Actuators B: Chemical

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A highly sensitive nitrogen dioxide (NO2) sensor based on orientational transition of a thin film of liquid crystal (LC) supported on a gold surface is reported. Transport of NO2 molecules through the LC film to the LC-gold interface induces an orientation transition in the LC film. The dynamic behavior of the sensor response exhibits a concentration-dependent response rate that is employed to generate an algorithm for quantitative determination of unknown concentrations. Sensitive, selective and reversible detection with minimal effects of environmental fluctuations suggest that these sensors can be used for quantitative NO2 detection for a number of applications.

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Quantitative detection of a simulant of organophosphonate chemical warfare agents using liquid crystals

VanTreeck

Most

Grinwald

et al. 2011

Sensors and Actuators B: Chemical

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A Liquid Crystal-Based Passive Badge for Personal Monitoring of Exposure to Hydrogen Sulfide

Robinson

Grinwald

Bremer

et al. 2014

Journal of Occupational and Environmental Hygiene

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A new liquid crystal (LC)-based passive dosimeter badge for personal monitoring of exposure to hydrogen sulfide (H2S) gas is reported. When a thin film of LC supported on a surface functionalized with lead perchlorate Pb(ClO4)2 (the LC sensor) is exposed to H2S, the orientation of LC molecules in the film changes from perpendicular to parallel. This reorientation induces a change in the appearance of the LC film when viewed between crossed polarizers. A H2S dosimeter was fabricated by pairing a LC sensor with a glass substrate forming a headspace between the two surfaces, to control diffusion of H2S across the LC film. When the dosimeter is exposed to H2S, a bright front appears as a function of exposure time. An algorithm has been developed to correlate this response length and exposure dose. The dosimeters are functionally stable when subjected to extreme temperature and humidity fluctuations, and are immune to a number of potentially interfering chemicals, except mercaptans. These dosimeters detect H2S at 0.2 ppm TWA (8 hr) with ±20% overall accuracy. The dosimeters were used to monitor the personal exposure of personnel working in an oil refinery. The TWA concentrations measured by the LC-based dosimeters correlate strongly with the NIOSH 1063 method that uses a sorbent tube and a pump followed by laboratory analysis. Thus, the LC-based dosimeters can provide a sensitive tool for on-site assessment of personal exposure to H2S in different environments.

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Nematic liquid crystal interfaces for chemical and biological detection

Most

VanTreeck

Grinwald

et al. 2011

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Bart A. Grinwald

Liquid crystal-based sensors for selective and quantitative detection of nitrogen dioxide

Quantitative detection of a simulant of organophosphonate chemical warfare agents using liquid crystals

A Liquid Crystal-Based Passive Badge for Personal Monitoring of Exposure to Hydrogen Sulfide

Nematic liquid crystal interfaces for chemical and biological detection

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