基于场效应的气体检测用iii组氮化物装置

12th International Conference on Semiconducting and Insulating Materials, 2002. SIMC-XII-2002. Pub Date : 2002-06-30 DOI:10.1109/SIM.2002.1242727

M. Eickhoff, J. Schalwig, O. Weidemann, L. Gorgens, G. Muller, M. Stutzmann

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引用次数: 0

摘要

我们报道了基于iii族氮化材料的新型气敏器件的传感器性能的最新结果。(Pt)-肖特基二极管以及气敏AlGaN/GaN异质结构场效应晶体管的特点是它们对氢和其他氧化性或还原性气体的温度依赖性灵敏度。对气敏(Pt)-GaN肖特基触点瞬态行为的进一步研究表明，高达150/spl℃的器件温度下，氢储存在传感器系统的电子活性部位。通过弹性反冲检测分析，我们发现铂/氮化镓界面上氢气的积累伴随着氧的积累。基于氮化镓的气敏器件被证明结合了高性能和简单的平面器件加工技术。

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Group III-nitride devices for field effect based gas detection

We report about recent results on the sensor properties of novel gas-sensing devices based on group III-nitride materials. (Pt)-Schottky diodes as well as gas sensitive AlGaN/GaN heterostructure field effect transistors are characterized with respect to their temperature dependent sensitivity towards hydrogen and other oxidizing or reducing gases. Further investigation of the transient behaviour of gas sensitive (Pt)-GaN Schottky contacts reveals that up to device temperatures of 150/spl deg/C hydrogen is stored on electronically active sites of the sensor system. We found hydrogen accumulation at the Pt/GaN interface accompanied by an accumulation of oxygen by elastic recoil detection analysis. GaN-based gas sensitive devices are demonstrated to combine high performance with a simple planar device processing technology.

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12th International Conference on Semiconducting and Insulating Materials, 2002. SIMC-XII-2002.

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