Login / Signup

Robust Dual Optical Sensor for pH and Dissolved Oxygen.

Lu WangKim D JensenNikos HatzakisMin ZhangThomas Just Sørensen
Published in: ACS sensors (2022)
As part of moving our optical pH and dissolved oxygen (DO) optical chemosensors toward industrial applications, we decided to explore a many-sensors-in-one principle. It was tested if physical segregation of the optical sensor components in a single sensor polymer could remove cross-talk and quenching. It was found that a design concept with an oxygen-responsive dye in polymer nanoparticles and a pH-responsive dye in an organically modified siloxane polymer resulted in a robust pH/O 2 dual optical sensor. Individually, the O 2 -sensitive nanoparticles, a known component for optical DO sensing, and the pH sensor are operational. Thus, it was decided to test if nanoparticles enclosed within the pH-sensitive responsive sol-gel (i) could work together if segregated and (ii) could operate with a single intensity signal that is without a reference signal; developments within industrial optical sensor technology indicate that this should be feasible. The prototype optode produced in this work was shown to have a negligible drift over 60 h, bulk diffusion-limited DO response, and independent response to pH and O 2 . On the individual optode, pH calibration was found to show the expected sigmoidal shape and p K a , while the complexity of the calibration function for the DO signal was significant. While the engineering of the sensor device, optics, and hardware are not robust enough to attempt generic sensor calibration, it was decided to demonstrate the design concept in simple fermentation experiments. We conclude that the dual sensor design with the physical segregation of components is viable.
Keyphrases
  • high resolution
  • high speed
  • physical activity
  • mental health
  • risk assessment
  • low cost
  • quantum dots
  • hyaluronic acid