Fabrication and Materials Integration of Flexible Humidity Sensors for Emerging Applications

In the past decade, humidity measurements have ubiquitously gained consideration in the wide range of application paradigms such as industrial predictive maintenance, instrumentation, automation, agriculture, climate monitoring, healthcare, and semiconductor industries. Accurate humidity measurements and cost-effective fabrication processes for large-volume and high-performance sensors with flexible form factors are essential to meet the stringent performance requirements of the emerging application areas. To address this need, recent efforts focus on development of innovative sensing modalities, process technologies, and exploration and integration of new materials to enable low-cost, robust, and flexible humidity sensors with ultrahigh sensitivity and linearity, large dynamic range, low hysteresis, and fast response time. In this review paper, we present an overview of flexible humidity sensors based on distinct sensing mechanisms, employed processing techniques, and various functional sensing layers and substrate materials for specific applications. Furthermore, we present the critical device design parameters considered to be indicative of sensor performance such as relative humidity range, along with a discussion on some of the specific applications and use cases.

Automated summary

Humidity measurements have gained widespread attention in various applications, with a focus on developing innovative sensing modalities, process technologies, and new materials integration to enable cost-effective, robust, and flexible humidity sensors. This review paper provides an overview of flexible humidity sensors based on different sensing mechanisms, and discusses critical device design parameters and specific applications and use cases.