Emerging Flexible Sensor Technologies for In-Situ Monitoring in PEMFCs: A Comprehensive Review

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🔬研究者:Provides a comprehensive overview of flexible sensor technologies for PEMFC monitoring, detailing operating principles and recent advances for researchers in fuel cell and sensor fields.

🏢実務担当者:Guides selection of flexible sensors for integration into fuel cell stacks, enabling real-time multi-parameter monitoring to enhance product performance and durability.

Proton exchange membrane fuel cells (PEMFCs) play a crucial role in the transition toward hydrogen-based clean energy systems. However, their performance and durability are highly sensitive to internal environmental conditions, which remain difficult to monitor in real time. Traditional monitoring methods, whether intrusive or non-intrusive, often suffer from limitations such as low spatial and temporal resolution, structural complexity, or incompatibility with stack integration. This comprehensive review highlights the paradigm shift toward emerging flexible sensor technologies as a promising approach for in-situ, multi-parameter monitoring in PEMFCs. We systematically categorize and evaluate both non-intrusive and intrusive sensing strategies, detailing their operating principles, advantages, and limitations. Special emphasis is placed on flexible microsensors, which enable real-time monitoring of temperature, humidity, pressure, gas composition, voltage, and current with minimal structural disruption. We further summarize recent advances of flexible sensors for in-situ monitoring in PEMFCs according to application scenarios. The transition from single-parameter sensing to multi-parameter integration, as well as from single-cell investigations to stack-level applications, is also discussed. Finally, we examine the trade-offs between sensor integration and fuel cell performance, and propose future research directions aimed at improving sensor durability, spatial resolution, and system-level integration for intelligent PEMFC management. This review focuses on the emerging role of flexible sensor technologies in enabling in-situ, multi-parameter monitoring of PEMFCs, with particular attention to the trade-off between sensor integration and fuel cell performance. It offers guidance and new insights into sensor development for advancing the intelligent management of PEMFCs. • Typical intrusive and non-intrusive techniques for in-situ monitoring of internal PEMFC parameters are reviewed. • Representative flexible sensors are summarized in terms of operating principles and manufacturing methods. • The current state of flexible sensors for in-situ monitoring in PEMFCs is discussed. • Future directions for the development of flexible sensor technologies for in-situ PEMFC monitoring are prospected.

• openalex https://doi.org/10.1016/j.gee.2026.05.015first seen 2026-05-22 04:47:46 · last seen 2026-05-27 04:52:40