[1] G M MA, C R LI, Y T LUO et al. High sensitive and reliable fiber Bragg grating hydrogen sensor for fault detection of power transformer. Sensors and Actuators B: Chemical, 169, 195-198(2012).
[2] M ALEIXANDRE, P CORREDERA, M L HERNANZ et al. Development of fiber optic hydrogen sensors for testing nuclear waste repositories. Sensors and Actuators B: Chemical, 107, 113-120(2005).
[3] S J IPPOLITO, S KANDASAMY, K KALANTAR-ZADEH et al. Hydrogen sensing characteristics of WO3 thin film conductometric sensors activated by Pt and Au catalysts. Sensors and Actuators B: Chemical, 108, 154-158(2004).
[4] Hanpeng DONG, Wei ZHANG, Yilong HAO. Research on three electrodes galvanic cell hydrogen sensor. Journal of Transduction Technology, 20, 747-750(2007).
[5] W SHIN, M NISHIBORI, K TAJIMA et al. Integration of ceramic catalyst on micro-thermoelectric gas sensor. Sensors and Actuators B: Chemical, 118, 283-291(2006).
[7] M H YANG, G P WANG, J X DAI et al. Fiber Bragg grating sensors with Pt-loaded WO3 coatings for hydrogen concentration detection down to 200 ppm. Measurement Science and Technology, 25, 114004(2014).
[8] Zhi YANG, Minghong YANG, Jixiang DAI et al. Characteristic of Pt/WO3 hydrogen sensitive material prepared by sol-gel method. Acta Photonica Sinica, 41, 1036-1040(2012).
[9] Zhi LI, Minghong YANG, Jixiang DAI et al. The improvment research of fiber-optic hydrogen gas sensor using Pt catalyzed tungsten trioxide. Acta Photonica Sinica, 42, 1046-1051(2013).
[10] J X DAI, Y LI, H B RUAN et al. Fiber optical hydrogen sensor based on WO3-Pd2Pt-Pt nanocomposite films. Nanomaterials (Basel, Switzerland), 11, 128(2021).
[11] M SLAMAN, B DAM, H SCHREUDERS et al. Optimization of Mg-based fiber optic hydrogen detectors by alloying the catalyst. International Journal of Hydrogen Energy, 33, 1084-1089(2007).
[12] Jixiang DAI, Minghong YANG, Yun CHENG et al. Hydrogen sensor based on D-shaped fiber Bragg grating coated with WO3-Pd composite films. Acta Photonica Sinica, 40, 1003-1007(2011).
[13] R J WESTERWAAL, J S A ROOIJMANS, L LECLERCQ et al. Nanostructured Pd–Au based fiber optic sensors for probing hydrogen concentrations in gas mixtures. International Journal of Hydrogen Energy, 38, 4201-4212(2013).
[14] F A A NUGROHO, A DARMADI, A P ZHDANOV et al. Universal scaling and design rules of hydrogen-induced optical properties in Pd and Pd-alloy nanoparticles. Acs Nano, 12, 9903-9912(2018).
[15] L J BANNENBERG, F A A NUGROHO, H SCHREUDERS et al. Direct comparison of PdAu alloy thin films and nanoparticles upon hydrogen exposure. Acs Applied Materials & Interfaces, 11, 15489-15497(2019).
[16] J X DAI, M H YANG, X YU et al. Greatly etched fiber Bragg grating hydrogen sensor with Pd/Ni composite film as sensing material. Sensors and Actuators B: Chemical, 174, 253-257(2012).
[17] J X DAI, M H YANG, X YU et al. Optical hydrogen sensor based on etched fiber Bragg grating sputtered with Pd/Ag composite film. Optical Fiber Technology, 19, 26-30(2013).
[18] Xian ZHOU, Mo YANG, Xingzu MING et al. Hydrogen sensing characteristics of Pd-Ag composite film micro-structured grating fiber with different silver content. Acta Photonica Sinica, 48, 0806004(2019).
[19] I DARMADI, F A A NUGROHO, S KADKHODAZADEH et al. Rationally designed PdAuCu ternary alloy nanoparticles for intrinsically deactivation-resistant ultrafast plasmonic hydrogen sensing. Acs Sensors, 4, 1424-1432(2019).
[20] L BANNENBERG, H SCHREUDERS, B DAM. Tantalum-palladium: hysteresis-free optical hydrogen sensor over 7 orders of magnitude in pressure with sub-second response. Advanced Functional Materials, 31, 2010483(2021).
[21] S YUN, O S TED. Correlations in palladium membranes for hydrogen separation: a review. Journal of Membrane Science, 375, 28-45(2011).
[22] C ZHANG, A BOUDIBA, M G OLIVIER et al. Sensing properties of Pt/Pd activated tungsten oxide films grown by simultaneous radio-frequency sputtering to reducing gases. Sensors and Actuators B: Chemical, 175, 53-59(2012).
[23] F A A NUGROHO, I DARMADI, L CUSINATO et al. Metal–polymer hybrid nanomaterials for plasmonic ultrafast hydrogen detection. Nature Materials, 18, 489-495(2019).
[24] Sujiang XIE. Modifying of poly ( tetra fluoroethylene) and its application. New Chemical Materials, 30, 26-30(2002).
[25] Zhongfu XIA, Xunlin QIU, Feipeng WANG et al. Influence of temperature and humidity on stability of piezoelectric activity for porous polytetrafluoroethylene(PTFE) electret film. Jorunal of Functional Materials, 35, 82-85(2004).
