Simulation of Pt80Au14Ti6 Work Function Change-Based Sensor of H2 Gas

IF 1.2 Q3 MULTIDISCIPLINARY SCIENCES

Journal of Physical Science Pub Date : 2022-11-30 DOI:10.21315/jps2022.33.3.4

R. Marjunus, Yusril Al Fath, Y. Yulianti, W. Widanarto

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Abstract

Chemical reactions simulation in detecting hydrogen gas (H2) on Pt80Au14Ti6 sensor surface based on work function change (Δɸ) has been conducted. The simulation result is compared with laboratory results of detecting H2 gas. Three chemical reactions contained three coverages, H coverage (θH), O coverage (θO), and H2O coverage (θH2O). The simulation was run using MATLAB. This research can find the reaction parameter values such as the Arrhenius coefficient of H2O forming reaction on Pt (υf3Pt), H2O forming reaction on Au (υf3Au), i.e., H2O dissociation on Au (υf3Au ), O2 desorption on Ti (υd2Ti), H2O forming reaction on Ti (υf3Ti), and H2O dissociation on Ti (υf3Ti), i.e., 7.5×1014 s–1, 9.85×1015 s–1, 3.25×1015 s–1, 7.11×1015 s–1, 3.425×1015 s–1 and 2.725×1015 s–1, respectively. The simulation results also have the same trend as the laboratory results. However, the contact potential difference (CPD) simulation result, i.e., –240 mV, is not the same as the laboratory result, (–297± 9) mV. In addition, this simulation also obtained approximation coverage for atoms/molecules on PT80Au14Ti6 surface, i.e., θH = 0.665154 Mono Layer (ML); θO = 1.5621× 10–6 ML; and θH2O = 5.41676 ×10–5 ML.

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基于Pt80Au14Ti6功函数变化的H2气体传感器仿真

基于功函数变化(Δ h)对Pt80Au14Ti6传感器表面检测氢气(H2)的化学反应进行了模拟。仿真结果与实验室氢气检测结果进行了比较。三个化学反应包含三个覆盖范围，H覆盖范围(θH)， O覆盖范围(θO)和H2O覆盖范围(θH2O)。利用MATLAB进行仿真。本研究得到了Pt (f3pt)上H2O生成反应、Au (f3au)上H2O生成反应的Arrhenius系数，即Au (f3au)上H2O解离、Ti (d2ti)上O2解吸、Ti (f3ti)上H2O生成反应、Ti (f3ti)上H2O解离的反应参数值分别为7.5×1014 s-1、9.85×1015 s-1、3.25×1015 s-1、7.11×1015 s-1、3.425×1015 s-1、2.725×1015 s-1。仿真结果与实验结果也具有相同的趋势。但是，接触电位差(CPD)模拟结果为-240 mV，与实验室结果(-297±9)mV并不相同。此外，该模拟还获得了PT80Au14Ti6表面原子/分子的近似覆盖范围，即θH = 0.665154 Mono Layer (ML);θo = 1.5621× 10-6 ml;θH2O = 5.41676 ×10-5 ML。

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来源期刊

Journal of Physical Science Physics and Astronomy-Physics and Astronomy (all)

CiteScore

1.70

自引率

0.00%

发文量

期刊介绍： The aim of the journal is to disseminate latest scientific ideas and findings in the field of physical sciences among scientists in Malaysia and international regions. This journal is devoted to the publication of articles dealing with research works in Chemistry, Physics and Engineering. Review articles will also be considered. Manuscripts must be of scientific value and will be submitted to independent referees for review. Contributions must be written in English and must not have been published elsewhere.