Кинетика изменения оптической прозрачности нанопленок палладия при взаимодействии с водородом

Оптика и спектроскопия Pub Date : 2023-01-01 DOI:10.21883/os.2023.03.55393.4368-22

В.А. Шутаев, Е. А. Гребенщикова, В. А. Матвеев, Надежда Николаевна Губанова, Ю.П. Яковлев

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Abstract

The kinetics of changing in optical transmittance of palladium (Pd) nanolayers (about 10 nm thick, deposited on object glass substrates by thermal evaporation in vacuum) in hydrogen flow (100 vol.%) in the temperature range of 300-335 K are studied. It is shown that the rate of changing of palladium optical transmittance at hydrogen flow rises linearly with increasing the temperature due to sorption of hydrogen by Pd layer. The rate of changing in optical transmittance of Pd layer during sorption and desorption of hydrogen is established to rise by about one order with increasing the temperature from 300 to 335 K. The curves describing the changing in optical transmittance of palladium nanolayer during hydrogen desorption have two distinct sections: linear and nonlinear. The linear section of the curve weakly depends on temperature, while the nonlinear section sharply rises with increasing the temperature. Such the changing of the rate in optical transmittance can be associated with phase transition from β- to α-phase during hydrogen desorption from palladium.

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钯纳米薄膜与氢相互作用时光学透明变化动力学

研究了钯(Pd)纳米层(厚度约10 nm，通过真空热蒸发沉积在物体玻璃衬底上)在300-335 K温度范围内氢气流(100 vol.%)下的透光率变化动力学。结果表明，由于钯层对氢气的吸附作用，钯在氢气流中的透过率随温度的升高呈线性上升。在300 ~ 335 K的温度范围内，钯层在吸氢和解吸氢过程中透过率的变化率随温度的升高而升高约一个数量级。描述钯纳米层在解吸氢过程中透过率变化的曲线分为线性和非线性两部分。曲线的线性部分对温度的依赖性较弱，而非线性部分随着温度的升高而急剧上升。这种透过率的变化可能与钯脱氢过程中β-相向α-相的转变有关。

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Оптика и спектроскопия

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