SPR传感器表层脉冲氢处理

2022 IEEE 41st International Conference on Electronics and Nanotechnology (ELNANO) Pub Date : 2022-10-10 DOI:10.1109/ELNANO54667.2022.9927030

A. Vasiljev, T. Vasyliev, R. Zhelezniak, V. Kryvytskyi, T. Doroshenko, M.G. Chernikov

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引用次数: 0

摘要

实验研究了氢对SPR传感器的脉冲作用。通过估算金膜中氢的浓度分布来选择脉冲谱。脉冲是电解电流的脉冲，持续时间为2秒。电流脉冲每半小时重复一次。在60次脉冲作用下，SPR曲线向大角度区域偏移了4.51°。SPR曲线的宽度增加了5倍。光的共振吸收幅度明显减小。经过60次脉冲氢处理后，SPR传感器已不适于精确测量的配准。对氢处理对金薄膜形貌的影响进行了理论建模。SPR曲线的变化可以解释为金膜上层的氢脆，从而增加了金膜的表面粗糙度。

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Pulse Hydrogen Treatment of Surface Layer of SPR Sensor

The pulse action of hydrogen on the SPR sensor was experimentally studied. The pulse regime was chosen by means of estimation of hydrogen concentration distribution in a gold film. Impulse was an impulse of electrolysis current with a duration of 2 seconds. The current impulses were repeated every half hour. The SPR curve after exposure to 60 impulses on the sensor shifted to the region of larger angles by 4.51°. The width of the SPR curve has increased 5 times. The amplitude of the resonant absorption of light has decreased significantly. After 60 impulses of hydrogen treatment the SPR sensor has become unsuitable for registration in accurate measurements. The theoretical modeling for changes of the morphology of thin gold film by means of hydrogen treatment was performed. The SPR curve changes were explained by hydrogen embrittlement of the upper layer of the gold film and, thus, by increasing of the surface roughness of the gold film.

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2022 IEEE 41st International Conference on Electronics and Nanotechnology (ELNANO)

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