论文信息 - Electronic structure study of the bimetallic Cu1-xZnx alloy thin films

Electronic structure study of the bimetallic Cu1-xZnx alloy thin films

Abstract A series of Zn doped copper materials were investigated upon their crystal and electronic structure with the general formula Cu1-xZnx. CuZn alloys were produced via electrodeposition method. Galvanostatic deposition was preferred for the deposition. Crystal properties of the samples were studied via X-ray diffraction (XRD) patterns and supported by the X-ray absorption fine structure spectroscopy (XAFS) data. According to the crystal structure analysis, crystal geometries of the substituted samples were mainly determined in bcc cubic. The study has revealed that, low amount of Zn substitution (0.1M) are inactive in the molecular interplays and treated as an impurity in fcc copper environment. However, higher Zn concentrations (> 0.1 M) have built bcc structure under the influence of the highly overlapped 4p levels wavefunctions of the neighbouring Cu and Zn atoms. Thus, 0.1 M zinc substitution has been determined as a threshold of the phase transition from fcc to the bcc structure.

[1] Wei Wang,et al. A high strength and high electrical conductivity Cu-Cr-Zr alloy fabricated by cryorolling and intermediate aging treatment , 2017 .

[2] Zhou Li,et al. A Novel Cu-10Zn-1.5Ni-0.34Si Alloy with Excellent Mechanical Property Through Precipitation Hardening , 2016, Journal of Materials Engineering and Performance.

[3] Guanghui Cao,et al. Phase transition, microstructural evolution and mechanical properties of Ti-Nb-Fe alloys induced by Fe addition , 2016 .

[4] Lai‐Chang Zhang,et al. Influence of Nb on the β→α″ martensitic phase transformation and properties of the newly designed Ti-Fe-Nb alloys. , 2016, Materials science & engineering. C, Materials for biological applications.

[5] İ. Karahan,et al. Grain size calculation of Cu-Zn alloys using Genetic programming; an alternative for Scherer's formula , 2015 .

[6] İ. Karahan,et al. Electrodeposition and properties of Zn, Cu, and Cu1−x Znx thin films , 2014 .

[7] Hong Yang,et al. Evaluation of the volume fraction of nanocrystals devitrified in Al-based amorphous alloys , 2009 .

[8] S. Klinkhieo,et al. Commissioning and performance of X-ray absorption spectroscopy beamline at the Siam Photon Laboratory , 2007 .

[9] S. Klinkhieo,et al. X-ray Absorption Spectroscopy Beamline at the Siam Photon Laboratory , 2007 .

[10] B. Ravel,et al. ATOMS: crystallography for the X-ray absorption spectroscopist. , 2001, Journal of synchrotron radiation.