High temperature hydrogen selective solid-state electrolyte sensor fabricated by slip casting

E. Juhera, M. Calvet, A. Revuelta, J. Abellà, S. Colominas

Research output: Indexed journal article Articlepeer-review

6 Citations (Scopus)

Abstract

Tritium management is one of the main challenges that future nuclear fusion energy has to achieve. Accurate tritium monitoring is a basic task in order to have relying fusion reactors. High temperature sensors have to be developed to make this monitoring a reality. Hydrogen sensors based on solid-state electrolytes can be a reliable option to perform this monitoring. These types of sensors offer resistance to harsh chemical environments, temperature depending conductivity and quick and easy to measure signals. Potentiometric and amperometric hydrogen sensors based on solid-state electrolytes were previously studied in our research group. These previous sensors contained a pellet-shaped solid-state electrolyte. Using a one-end closed tube geometry the active area of the sensor increases. This new shape was obtained by a slip casting process. The satisfactory results obtained with both amperometric and potentiometric sensors present a promising path to the development of high temperature tritium sensors that could be used in the breeding blankets of the future nuclear fusion reactors. In the present work, amperometric sensors performance has been improved by increasing the electrolyte's active area. Enlarging the electrolyte's area gives the sensor more sensitivity and reduces its limit of detection and quantification. Analytical parameters of the sensor were compared to other electrochemical hydrogen sensors.

Original languageEnglish
Pages (from-to)2066-2069
Number of pages4
JournalFusion Engineering and Design
Volume146
DOIs
Publication statusPublished - Sept 2019

Keywords

  • Amperometric
  • Fusion
  • Hydrogen
  • Proton conducting ceramics
  • Sensor
  • Slip casting

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