Shahriar Dantism scite author profile

A light-addressable potentiometric sensor (LAPS) is a field-effect-based potentiometric device, which detects concentration changes of an analyte solution on the sensor surface in a spatially resolved way. It uses a light source to generate electron-hole pairs inside the semiconductor, which are separated in the depletion region due to an applied bias voltage across the sensor structure and hence, a surface-potential-dependent photocurrent can be read out. However, depending on the beam angle of the light source, scattering effects can occur, which influence the recorded signal in LAPSbased differential measurements. To solve this problem, a novel illumination unit based on a field programmable gate array (FPGA) consisting of 16 smallsized tunable infrared laser-diode modules (LDMs) is developed. Due to the improved focus of the LDMs with a beam angle of only 2 mrad, undesirable scattering effects are minimized. Escherichia coli (E. coli) K12 bacteria are used as a test microorganism to study the extracellular acidification on the sensor surface. Furthermore, a salt bridge chamber is built up and integrated with the LAPS system enabling multi-chamber differential measurements with a single Ag/AgCl reference electrode.

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Determination of the extracellular acidification of Escherichia coli K12 with a multi‐chamber‐based LAPS system

Dantism

Takenaga

Wagner

et al. 2016

Physica Status Solidi (a)

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On-line monitoring of the metabolic activity of microorganisms involved in intermediate stages of biogas production plays an important role to avoid undesirable "down times" during the biogas production. In order to control this process, an on-chip differential measuring system based on the lightaddressable potentiometric sensor (LAPS) principle combined with a 3D-printed multi-chamber structure has been realized. As a test microorganism, Escherichia coli K12 (E. coli K12) were used for cell-based measurements. Multi-chamber structures were developed to determine the metabolic activity of E. coli K12 in suspension for a different number of cells, responding to the addition of a constant or variable amount of glucose concentrations, enabling differential and simultaneous measurements.Multi-chamber differential measurement setup based on the LAPS principle; RE, reference electrode.

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Shahriar Dantism

Differential imaging of the metabolism of bacteria and eukaryotic cells based on light-addressable potentiometric sensors

Optimization of Cell‐Based Multi‐Chamber LAPS Measurements Utilizing FPGA‐Controlled Laser‐Diode Modules

Determination of the extracellular acidification of Escherichia coli K12 with a multi‐chamber‐based LAPS system

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