40Å Platinum–porous SiC gas sensor: Investigation sensing properties of H2 gas

Autor: A. Cheriet, T. Kerdja, Y. Belkacem, Aissa Keffous, N. Gabouze, L. Talbi, T. Hadjersi, A. Boukezzata, Malika Berouaken, Y. Boukennous, Mohamed Kechouane, Y. Ouadah, Hamid Menari
Rok vydání: 2013
Předmět:
Zdroj: Physica B: Condensed Matter. 408:193-197
ISSN: 0921-4526
Popis: The present paper reports on a new structure for H2 gas sensing based on thin porous silicon carbide (PSiC) films. The PSiC layer has been formed by electrochemical etching of SiC films previously deposited onto p-type silicon substrate by pulsed laser deposition (PLD) using 6H-SiC target. Current–voltage (I–V) and current–time (I–t) characteristics have been measured. A thin platinum (Pt) film (40 A thickness) deposited onto PSiC layer has been used as a catalytic metal. The Schottky diode parameters such as ideality factor (n), barrier height (ϕBp) and series resistance (RS) have been evaluated under different concentrations of H2 gas. The experimental results show that upon exposure to H2 gas the barrier height, the ideality factor and the series resistance change significantly. The different changes in the electrical parameters of the structure (increase and decrease as a function of the H2 concentration) have been explained by the formation of two inversion layers. The first one forms as soon as the gas is in contact with the sensor and the second when the concentration reaches 90 ppm. Subsequently, the effect of gas concentration on the maximum sensitivity value of the sensor has been investigated. A high sensitivity (ΔI/I) value around 86% is found at about 1 V bias voltage. In addition, the response and recovery times were determined to be around 55 s and 160 s, respectively. Finally, the structure shows a reversible response for low gas concentration at room temperature.
Databáze: OpenAIRE
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