Tamm Plasmon Polaritons Hydrogen Sensors

• Published in: Advanced Physics Research Vol. 2; no. 8
• Main Authors: Chen, Yu‐Sheng, Yang, Zih‐Ying, Ye, Ming‐Jyun, Wu, Wen‐Hsiang, Chen, Lu‐Hsing, Shen, Hung‐Jung, Ishii, Satoshi, Nagao, Tadaaki, Chen, Kuo‐Ping
• Format: Journal Article
• Language: English
• Published: Edinburgh John Wiley & Sons, Inc 01.08.2023; Wiley-VCH
• Subjects: Bragg reflectors; Catalysis; Chemical sensors; Clean technology; Glass substrates; Hydrogen; Hydrogenation; Metal films; Metal oxides; Palladium; Phase transitions; Plasmons; Polaritons; Reflectance; Resonance; Sensors; Simulation; Tamm plasmon polaritons; Thin films; Wavelengths; Zinc oxides
• ISSN: 2751-1200; 2751-1200
• DOI: 10.1002/apxr.202200094

Tamm plasmon polariton (TPP) resonance can be excited within the stopband of a distributed Bragg reflector (DBR) by combining a thin metal film. When exposured to hydrogen gas, the TPP resonance feature is redshifted for the TPPs structure with palladium (Pd) on the top, due to hydrogen‐induced palladium lattice expansion. By utilizing a DBR‐side TPP structure, near‐zero reflectance can be achieved, leading to more than 3 orders of magnitude changes in reflectance compared to metal‐side TPP structure. The proposed TPP hydrogen structure enables the detection with low H2 concentration from 0.5% to 4%. Comparing to the only Pd film, TPP sensor has increased the sensitivity about 100% at visible wavelengths. Tamm plasmon polariton (TPP) resonance with a palladium (Pd) thin film is proposed for use in optical hydrogen sensors. With optimized design, near‐zero reflectance can be achieved by TPP resonance, leading to more than 3 orders of magnitude changes in reflectance compared to the pure Pd film.