Download This PaperStudy on the Growth Mechanism and Properties of Bi2212 Thin Films on Miscut Substrates by Sol-Gel Method
43 Pages Posted: 16 Oct 2023
Abstract
A sol-gel methodology is employed to prepare Bi2212 thin films on single crystal LaAlO3 miscut substrates with nominal tilt angles of 0°, 5°, 10°, and 15°. The study focuses on examining the phase purity, crystal structure, surface morphology, microstructure, and properties of these thin films. Experimental results indicate that the growth of Bi2212 thin films on miscut substrates proceeds through the step-flow mode using the sol-gel method. Higher tilt angles lead to an increase in the conventional resistivity of Bi2212 thin films. Tilted Bi2212 thin films exhibit a typical transverse Seebeck effect when comparing the resistivity in different directions. Notably, the Seebeck coefficient difference, denoted as ΔS, reaches 12 V/K when the substrate tilt angle is set at 15°. Meanwhile, tilted Bi2212 thin films consistently exhibit outstanding Tc while demonstrating lower Jc values. These findings offer valuable insights for the development of Bi2212 HTSFs in thermoelectric and superconductive devices, serving as a reference point for achieving optimal film characteristics.
Keywords: Sol-gel method, Bi2212 thin film, Seebeck effect, Thermoelectric properties, Superconducting performance
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