Self-Assembled TiN-Metal Nanocomposites Integrated on Flexible Mica Substrates towards Flexible Devices

Author:

Liu Juncheng1ORCID,Zhang Yizhi1,Dou Hongyi1,Tsai Benson Kunhung1,Choudhury Abhijeet1ORCID,Wang Haiyan12ORCID

Affiliation:

1. School of Materials Engineering, Purdue University, West Lafayette, IN 47907, USA

2. School of Electrical and Computer Engineering, Purdue University, West Lafayette, IN 47907, USA

Abstract

The integration of nanocomposite thin films with combined multifunctionalities on flexible substrates is desired for flexible device design and applications. For example, combined plasmonic and magnetic properties could lead to unique optical switchable magnetic devices and sensors. In this work, a multiphase TiN-Au-Ni nanocomposite system with core–shell-like Au-Ni nanopillars embedded in a TiN matrix has been demonstrated on flexible mica substrates. The three-phase nanocomposite film has been compared with its single metal nanocomposite counterparts, i.e., TiN-Au and TiN-Ni. Magnetic measurement results suggest that both TiN-Au-Ni/mica and TiN-Ni/mica present room-temperature ferromagnetic property. Tunable plasmonic property has been achieved by varying the metallic component of the nanocomposite films. The cyclic bending test was performed to verify the property reliability of the flexible nanocomposite thin films upon bending. This work opens a new path for integrating complex nitride-based nanocomposite designs on mica towards multifunctional flexible nanodevice applications.

Funder

U.S. National Science Foundation

U.S. National Science Foundation for the high-resolution microscopy effort

U.S. Department of Energy, Office of Science, Basic Energy Sciences

Publisher

MDPI AG

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