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Single-Crystal-like Textured Growth of CoFe<sub>2</sub>O<sub>4</sub> Thin Film on an Amorphous Substrate: A Self-Bilayer Approach

Sagar E. Shirsath, Danyang Wang, Zhang Ji, Akimitsu Morisako, Sean Li, Xiaoxi Liu

2020ACS Applied Electronic Materials84 citationsDOI

Abstract

Single crystal or textured growth with preferred orientation of transition-metal oxide thin films is highly desirable for their application in technological devices. Commercially available single-crystal substrates are the obvious base to deposit thin films with a desired orientation. However, these substrates have inherent shortcomings including limited number of crystal structures, lattice parameters and orientations, and most importantly their high costs. Herein, a universal approach was developed to grow an oxide thin film with (100) crystal orientation on an amorphous substrate. To achieve this goal, two layers of the same material called self-bilayer were deposited at different temperatures and of different thicknesses. CoFe2O4 spinel ferrite was used as a model system to realize the approach since it is difficult to grow spinel ferrites with (100) orientation even on single-crystal substrates. X-ray diffraction pattern and transmission electron microscopy confirmed the single-crystal-like growth of CoFe2O4 with (100) orientation on an amorphous SiO2/Si substrate. The deposited CoFe2O4 bilayer thin film displays unprecedentedly giant perpendicular magnetic anisotropy with a coercivity of 14.1 kOe, saturation magnetization of 475 emu/cm3, and remanent ratio of 0.92 at room temperature. This work opens up a facile and generic route to grow complex metal oxide systems with preferred orientation on an amorphous substrate via an innovative self-bilayer approach.

Topics & Concepts

Materials scienceAmorphous solidBilayerCoercivityThin filmSingle crystalSpinelMagnetic anisotropyEpitaxyCrystallographyMagnetizationCondensed matter physicsNanotechnologyMetallurgyMagnetic fieldChemistryMembraneQuantum mechanicsLayer (electronics)BiochemistryPhysicsFerroelectric and Negative Capacitance DevicesMultiferroics and related materialsZnO doping and properties
Single-Crystal-like Textured Growth of CoFe<sub>2</sub>O<sub>4</sub> Thin Film on an Amorphous Substrate: A Self-Bilayer Approach | Litcius