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带有钯/氧化锡层的表面声波氢传感器。

SAW Hydrogen Sensors with Pd/SnO Layers.

作者信息

Constantinoiu Izabela, Miu Dana, Viespe Cristian

机构信息

Laser Department, National Institute for Laser, Plasma and Radiation Physics, Atomistilor 409, RO-077125 Magurele, Romania.

Faculty of Chemical Engineering and Biotechnologies, University Politehnica of Bucharest, RO-011061 Bucharest, Romania.

出版信息

Materials (Basel). 2022 Nov 13;15(22):8012. doi: 10.3390/ma15228012.

Abstract

Pd/SnO bilayers for surface acoustic wave (SAW) sensors were obtained using pulsed laser deposition (PLD). Bilayers were made at several deposition pressures in order to observe the influence of the morphology of the sensitive films on the response of the sensors. The morphological properties were analyzed by scanning electron microscopy (SEM). The SnO monolayers were initially deposited on quartz substrates at 100, 400 and 700 mTorr, to observe their morphology at these pressures. The Pd/SnO bilayer depositions were made at 100 and 700 mTorr. The sensors realized with these sensitive films were tested at different hydrogen concentrations, in the range of 0.2-2%, at room temperature. In order to establish selectivity, tests for hydrogen, nitrogen, oxygen and carbon dioxide were carried out with SnO-700, Pd-100/SnO-700 and Pd-700/SnO-700 sensors. The sensor with the most porous sensitive film (both films deposited at 700 mTorr) had the best results: a sensitivity of 0.21 Hz/ppm and a limit of detection (LOD) of 142 ppm. The morphology of the SnO film is the one that has the major influence on the sensor results, to the detriment of the Pd morphology. The use of Pd as a catalyst for hydrogen improved the sensitivity of the film considerably and the selectivity of the sensors for hydrogen.

摘要

采用脉冲激光沉积(PLD)制备了用于表面声波(SAW)传感器的Pd/SnO双层膜。为了观察敏感膜形态对传感器响应的影响,在几种沉积压力下制备了双层膜。通过扫描电子显微镜(SEM)分析了其形态学特性。首先在100、400和700毫托的压力下将SnO单层膜沉积在石英衬底上,以观察这些压力下的膜形态。Pd/SnO双层膜在100和700毫托下进行沉积。用这些敏感膜制成的传感器在室温下于0.2 - 2%的不同氢气浓度下进行测试。为了确定选择性,使用SnO - 700、Pd - 100/SnO - 700和Pd - 700/SnO - 700传感器对氢气、氮气、氧气和二氧化碳进行了测试。具有最多孔敏感膜的传感器(两层膜均在700毫托下沉积)取得了最佳结果:灵敏度为0.21 Hz/ppm,检测限(LOD)为142 ppm。SnO膜的形态对传感器结果影响最大,而Pd膜形态的影响较小。将Pd用作氢气催化剂可显著提高膜的灵敏度以及传感器对氢气的选择性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d6f9/9697530/7cc38ff7c175/materials-15-08012-g001.jpg

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