铜镍纳米合金：混合、核壳或双面纳米粒子？

Cu-Ni nano-alloy: mixed, core-shell or Janus nano-particle?

机构信息

Department of Physics & Astronomy, University of Texas at San Antonio, One UTSA Circle, San Antonio, Texas 78249, USA.

出版信息

Nanoscale. 2014 Dec 21;6(24):14630-5. doi: 10.1039/c4nr05739b. Epub 2014 Oct 31.

Abstract

Bimetallic nanoparticles like Cu-Ni are particularly attractive due to their magnetic and catalytic properties; however, their properties depend strongly on the structure of the alloy i.e. mixed, core-shell or Janus. To predict the alloy structure, this paper investigates the size and shape effects as well as the surface segregation effect on the Cu-Ni phase diagram. Phase maps have been plotted to determine the mixing/demixing behavior of this alloy according the particle shape. Cu-Ni nanoalloy can form a mixed particle or a Janus one depending on the synthesis temperature. Surface segregation is also considered and reveals a nickel surface-enrichment. Finally, this paper provides a useful roadmap for experimentalists.

摘要

双金属纳米粒子如 Cu-Ni 由于其磁性和催化性质而特别有吸引力; 然而，它们的性质强烈依赖于合金的结构，即混合、核壳或詹纳斯。为了预测合金结构，本文研究了尺寸和形状效应以及表面偏析效应对 Cu-Ni 相图的影响。根据颗粒形状绘制了相图来确定该合金的混合/分离行为。根据合成温度，Cu-Ni 纳米合金可以形成混合颗粒或詹纳斯颗粒。还考虑了表面偏析，揭示了镍的表面富集。最后，本文为实验者提供了一个有用的路线图。

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铜镍纳米合金：混合、核壳或双面纳米粒子？

Cu-Ni nano-alloy: mixed, core-shell or Janus nano-particle?

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