Bilayered metallic cathodes consisting of pure Mg and Zn:Al thin films optimized by Laser-induced Thermionic Vacuum Arc (LTVA) technology

IF 7.5 Q1 CHEMISTRY, PHYSICAL

Applied Surface Science Advances Pub Date : 2025-06-06 DOI:10.1016/j.apsadv.2025.100787

Aurelia Mandes , Rodica Vladoiu , Virginia Dinca , Milan Tichy , Pavel Kudrna , Elena Matei , Silviu Polosan

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Abstract

Bilayer metallic electrodes of magnesium and zinc-aluminum alloys Mg/Zn:Al were prepared using combined laser-thermionic vacuum arc methods. Plasma diagnosis suggests laser-plasma interaction by increasing the discharge voltage when the laser is on, which is converted by thermal annealing of plasma ions. A magnesium thin film with a lower work function, covered with a Zn:Al (4:1) layer was successfully used for efficient charge injection into electroluminescent diodes. The zinc-aluminum combination preserved the electrical conductivity of the thin magnesium film and protected it against oxidation. The capacitance-voltage measurements confirmed the integrity of the magnesium layer, whereas the work function was not affected. The zinc-aluminum alloy obtained through a thermionic vacuum arc exhibits good conductivity compared to pure zinc layers and better stability against degradation.

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采用激光诱导热离子真空电弧（LTVA）技术对纯Mg和纯Zn:Al薄膜双层金属阴极进行了优化

采用激光-热离子真空电弧联合方法制备了镁和锌铝合金Mg/Zn:Al双层金属电极。等离子体诊断认为激光与等离子体的相互作用是通过提高激光开启时等离子体离子的热退火转换的放电电压来实现的。采用低功函数的镁薄膜覆盖Zn:Al（4:1）层，成功地实现了电致发光二极管的高效电荷注入。锌铝结合物保留了镁薄膜的导电性，并防止其氧化。电容电压测量证实了镁层的完整性，而功函数不受影响。与纯锌层相比，通过热离子真空电弧制备的锌铝合金具有良好的导电性和更好的抗降解稳定性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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