.This Chapter focuses on metal oxide (MOX) gas sensors, widely used for detecting gaseous species through chemoresistive effects. It links macroscopic sensor behavior to microscopic mechanisms such as charge transport, grain boundary barriers, and defects like oxygen vacancies. Experimental and theoretical approaches, including temperature-dependent conductivity and tunneling models, are discussed. These concepts provide a comprehensive framework for understanding and improving MOX gas sensor performance.

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Metal Oxide (MOX) Gas Sensors

  • Cesare Malagù,
  • Giulia Zonta

摘要

.This Chapter focuses on metal oxide (MOX) gas sensors, widely used for detecting gaseous species through chemoresistive effects. It links macroscopic sensor behavior to microscopic mechanisms such as charge transport, grain boundary barriers, and defects like oxygen vacancies. Experimental and theoretical approaches, including temperature-dependent conductivity and tunneling models, are discussed. These concepts provide a comprehensive framework for understanding and improving MOX gas sensor performance.