Hydrogen is a renewable energy resource used as a fuel carrier with many advantages for future hydrogen economy systems. However, the safety of handling hydrogen fuel is of great concern due to explosion risks. Thus, in this study, a cost-effective WO3/MoO3-based gasochromic hydrogen sensor having a long-lasting signal (i.e., irreversible color change) is developed for detecting hydrogen leaks. Particularly, the active WO3/MoO3 compound film is deposited on a glass substrate by co-sputtering, and an ultrathin Pd catalyst layer for hydrogen gas decomposition is deposited on it using e-beam evaporation. Various characterizations are conducted to understand the structural, chemical, and optical properties of the WO3/MoO3-Pd films. In general, our WO3/MoO3-Pd sensor has excellent gas discoloration starting from 0.1 % of hydrogen concentration (in dry air) with fast response speed at room temperature. Besides, a DFT study further explains the sensing mechanism of our hybrid WO3/MoO3 structure. Those highlight the potential of our developed sensor for practical hydrogen sensing applications.
This work was supported by the Commercialization Promotion Agency for R&D Outcomes (Project No: RS-2023-00282104) funded by the Ministry of Science and ICT, Republic of Korea.Le Thai Duy has worked with Prof. H. Seo\u2019s group at Ajou University after finishing the integrated M.S./Ph.D. program from Sungkyunkwan University in 2017. He was one of the selected candidates for KRF/BP Fellowship in 2018, funded by National Research Foundation of Korea. Currently, he is working as a faculty at Vietnam National University. His current research interest is the development of nanocatalyst and functional materials for wearable sensors and energy devices.
