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磁控溅射制备铬薄膜的结构和光电学性质(英文) 被引量:3

Structural,Optical and Electrical Properties of Chromium Thin Films Prepared by Magnetron Sputtering
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摘要 用直流磁控溅射技术在石英基片上制备不同厚度(5nm~114nm之间)的铬膜.使用X射线衍射仪和分光光度计分别检测薄膜的结构和光学性质,利用德鲁特模型和薄膜的透射、反射光谱计算铬膜的厚度和光学常量,并采用Van der Pauw方法测量薄膜电学性质.结果表明:制备的铬薄膜为体心立方的多晶态,随着膜厚的增加,薄膜的结晶性能提高,晶粒尺寸增大;在可见光区域,当膜厚小于32nm时,随着膜厚的增加,折射率快速减小,消光系数快速增大,当膜厚大于32nm时,折射率和消光系数均缓慢减小并逐渐趋于稳定;薄膜电阻率随膜厚的增加为一次指数衰减. Chromium(Cr) thin films with thickness ranging from 5nm to 114nm were deposited on quartz substrates by the direct current magnetron sputtering.X-ray diffraction and optical spectrophotometer were employed to characterize the crystal structure and optical properties,respectively.Based on the Drude optical dielectric model,optical constants and thicknesses of the films were calculated from the transmittance and reflectance data.The sheet resistance was measured by Van der Pauw method.The results show that the films have a body-centered cubic crystalline structure.The grain size of the film increases gradually and the crystalline performance enhances as film thickness increases.When film thickness is less than 32nm,transmittance decreases sharply,reflectance and extinction coefficient increase rapidly as the increase of thickness.When thickness is larger than 32nm,both refractive index and extinction coefficient decrease gradually until they become stable as the thickness increases.Resistivity is the first order exponential decay when thickness increases from 5nm to 114nm.
出处 《光子学报》 EI CAS CSCD 北大核心 2012年第8期922-926,共5页 Acta Photonica Sinica
基金 The National Natural Science Foundation of China(No.11074041) the Science Foundation of Ningde Normal University(No.2011H208)
关键词 磁控溅射 铬薄膜 结构 光学性质 电学性质 Magnetron sputtering Cr film Structure Optical properties Electrical properties
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  • 1闫卫平,朱剑波,马灵芝,郭吉洪.Cr金属薄膜温度传感器的研究[J].仪器仪表学报,2004,25(z1):310-311. 被引量:1
  • 2刘宗贺,方雪冰,刘波,凌味未.直流磁控溅射铬膜附着性的影响因素研究[J].实验科学与技术,2006,4(1):31-32. 被引量:2
  • 3Fleischmann M,Hendra P J,McquiUan A J. Raman spectra of pyridine adsorbed at a silver electrode [J]. Chem. Phys. Lett, 1974(26) : 163-166.
  • 4Zhou Q,Zhang X,Huang Y,et al. Enhanced surface-enhanced Raman scattering performance by folding silver nanorods [J]. Appl. Phys. Lett, 2012(100) : 113101.
  • 5Tsai Y C, Hsu P C, Lin Y W, et al. Silver nanoparticles in multiwaUed carbon nanotube-Nafion for surface-enhanced Raman scattering chemical sensor [J]. Sens. Actuators. B, 2009(138) : 5-8.
  • 6Wong-ek K, Eiamchai P, Horprathum M, et al. Silver nanopartieles deposited on anodic aluminum oxide template using magnetron sputtering for surface-enhanced Raman scattering substrate [J]. Thin Solid Films,2010(518):7128-7132.
  • 7Won J C, Youngsuk K, Jin K K. Ultrahigh-Density array of silver nanoclusters for SERS substrate with high sensitivity and excellent reproducibility [J]. ACS Nano, 2012,6(1 ) : 249-255.
  • 8Yang Y, Li Z Y, Yamaguchi K, et al. Controlled fabrication of silver nanoneedles array for SERS and their application in rapid detection of narcotics [J]. Nanoscale,2012(4):2663.
  • 9Zhuo H, Peng F C, Lai F C,et al. Optical properties of porous anodic aluminum oxide thin fdms on quartz substrates [J]. Thin Solid Films, 2011,519 (7) : 2308-2312.
  • 10Ji N, Ruan W D, Wang C X, et al. Fabrication of silver decorated anodie aluminum oxide substrate and its optical properties on surface-enhanced Raman scattering and thin film interference [J]. Langmuir,2009,25(19):11869-11873.

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