Evi Bongaers scite author profile

The need for more advanced, accurate and lower cost sensor platforms is constantly growing. However, for certain applications the already existing sensing systems based on biological recognition elements have sometimes restrictions, which limit their use. As a result, sensors with synthetic recognition elements, such as molecular imprinted polymers (MIPs), can be interesting alternatives. Molecular imprinting leads to the formation of inert polymer particles with nanocavities, which can exhibit similar selectivity and specificity to target molecules as antibodies or enzymes. It is demonstrated that MIPs can be readily incorporated into two different sensor platforms for the detection of histamine in aqueous media. The first platform is based on electrochemical impedance spectroscopy and allows for the accurate detection of histamine in the nanomolar range. The second sensing technique is based on microgravimetry and allows for the detection of histamine in the micromolar range. Using the analogous molecule histidine, it is demonstrated that both sensor platforms are specific for the detection of histamine.

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Characterisation of ‘Braeburn’ browning disorder by means of X-ray micro-CT

Herremans

Verboven

Bongaers³

et al. 2013

Postharvest Biology and Technology

150

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A MIP‐based biomimetic sensor for the impedimetric detection of histamine in different pH environments

Bongaers

Alenus

Horemans

et al. 2010

Physica Status Solidi (a)

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Comparison of X-ray CT and MRI of watercore disorder of different apple cultivars

Herremans

Herreros

Defraeye

et al. 2014

Postharvest Biology and Technology

115

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Evi Bongaers

MIP-based sensor platforms for the detection of histamine in the nano- and micromolar range in aqueous media

Characterisation of ‘Braeburn’ browning disorder by means of X-ray micro-CT

A MIP‐based biomimetic sensor for the impedimetric detection of histamine in different pH environments

Comparison of X-ray CT and MRI of watercore disorder of different apple cultivars

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