Karin Sandström scite author profile

Karin Sandström

3Publications

24Citation Statements Received

27Citation Statements Given

How they've been cited

How they cite others

Affiliations

Umeå University, Science for Life Laboratory, Cranfield University

Publications

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Amperometric biosensor for formic acid in air

Sandström

Newman

Sunesson

et al. 2000

Sensors and Actuators B: Chemical

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The possibility of developing a simple, inexpensive and specific personal passive "real-time" air sampler based on biosensor technology was investigated. Formic acid was used as a model substance. The sensor is based on the enzymatic reaction between formic acid and formate dehydrogenase with NAD + as a cofactor and Meldola's blue as mediator. An effective way to immobilise the enzyme, cofactor and Meldola's blue on screen-printed electrodes was found to be in a mixture of glycerol and phosphate buffer covered with a gas-permeable membrane. When the sensor was introduced into an atmosphere containing formic acid, it gave a distinct and rapid amperometric response.

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Coal ash and limestone interactions in quicklime production

Sandström

Broström

Eriksson

2021

Fuel

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A gas-phase biosensor for environmental monitoring of formic acid: laboratory and field validation

et al. 2003

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In order to encourage more exposure measurements to be performed, a formic acid gas-phase biosensor has been developed for this purpose. In the present paper, an enzyme based biosensor has been validated with respect to analyte selectivity and on-site use. To ensure that the sampler developed measures the compound of interest the biosensor was exposed to three near structural homologues to formic acid, i.e. acetic acid, methanol and formaldehyde. These vapours were generated with and without formic acid and the only compound that was found to have an effect on the performance of the biosensor, albeit a small one, was acetic acid. The field test was performed in a factory using formic acid-containing glue for glulam products. In parallel to the measurements with the biosensor a well defined reference method was used for sampling and analysing formic acid. It was found that the biosensor worked satisfactorily in this environment when used in a stationary position. It was also shown that the biosensor could determine formic acid vapour concentrations down to 0.03 mg m(-3).

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