Phase control and optical response in NbNx ultra-thin films by reactive PLD

IF 3 Q2 PHYSICS, CONDENSED MATTER

Micro and Nanostructures Pub Date : 2025-09-11 DOI:10.1016/j.micrna.2025.208350

E. Benítez-Flores , J. Vargas-Bustamante , R. Castañeda-Guzmán , J. Pilo , J.E. Antonio , E.P. Arévalo-López , H. Muñoz , J.M. Cervantes , J.A. López-Aranda , R. Escamilla , M. Romero

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Abstract

Ultra-thin films of NbNx were synthesized by reactive PLD with the nitrogen partial pressure (pN₂) set to 8, 12, 16, and 20 Pa to elucidate the effects of nitridation on phase composition and functional properties. The film thickness decreased from 68 nm to 32 nm as pN₂ increased. Grazingincidence X-ray diffraction (GI-XRD) and Scherrer analysis revealed a gradual transformation from mixed tetragonal γ-NbN_0.64 and hexagonal ε-NbN phases to a predominantly hexagonal ε-NbN phase with increasing pN₂, accompanied by a linear reduction in crystallite size from ∼12 nm to ∼3.6 nm. X-ray photoelectron spectroscopy showed a very thin (∼5 nm) oxide surface layer and a slight decrease in the N 1s-Nb 3d splitting, indicating enhanced Nb–N charge transfer, with very small amounts of oxide within the ultra-thin films. Raman spectroscopy exhibited up-shifts in first-order phonon modes alongside pronounced acoustic bands, confirming the films’ polycrystalline nature. Finally, UV–Vis spectrophotometry demonstrated near-zero absorbance in the infrared region, suggesting strong IR reflectivity, which makes the films suitable for applications in coatings.

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反应性PLD在NbNx超薄膜中的相位控制与光学响应

在8、12、16、20 Pa的氮气分压条件下，采用反应PLD法合成了NbNx超薄膜，研究了氮化对膜相组成和功能性能的影响。随着pN2的增加，膜厚从68 nm减小到32 nm。掠射x射线衍射（GI-XRD）和Scherrer分析显示，随着pN2的增加，晶体尺寸从~ 12 nm线性减小到~ 3.6 nm，从混合的四方相γ-NbN0.64和六方相ε-NbN逐渐转变为主要的六方相ε-NbN。x射线光电子能谱显示出极薄（~ 5 nm）的氧化表面层，n1s - nb三维分裂略有减少，表明Nb-N电荷转移增强，超薄膜内的氧化物含量非常少。拉曼光谱显示一阶声子模式与明显的声波带呈上移，证实了薄膜的多晶性质。最后，紫外可见分光光度法表明，该薄膜在红外区域的吸光度接近于零，表明该薄膜具有较强的红外反射率，适合应用于涂料。

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来源期刊

Micro and Nanostructures

CiteScore

6.50

自引率

0.00%

发文量