Issue 20, 2024

Enhancement of magnetism by tailoring synthesis conditions in electron-doped superconducting nanoparticles

Abstract

A study on the effects of sample synthesis conditions on the particle size, structure, and magnetic properties of electron-doped cuprate superconductors of Eu1.85Ce0.15CuO4+αδ (ECCO) nanoparticles has been carried out using transmission electron microscopy (TEM), X-ray diffraction (XRD) and the superconducting quantum interference device magnetometer (SQUID). The ECCO nanoparticles were prepared through the sol–gel method with various sintering and annealing temperatures. From TEM characterization, the average particle sizes are 87 nm and 103 nm for the sintering temperatures of 700 °C and 900 °C, respectively. The XRD results with structural Rietveld refinement reveal that the lattice constants and bond distance Cu–O change considerably compared to the bulk case. Reducing the particle and crystallite size to below 200 nm causes strong suppression in the superconducting state. From SQUID measurements it is found that none of the samples show superconducting behavior. An upturn in magnetic susceptibility below 10 K is observed in the sample when the crystallite size is in the range of 69 nm to 88 nm, indicating the existence of magnetism. The lower the sintering temperature of the sample synthesis, the higher the effective magnetic moment and Curie temperature. It suggests that the magnetic correlation is more developed in the smaller samples.

Graphical abstract: Enhancement of magnetism by tailoring synthesis conditions in electron-doped superconducting nanoparticles

Article information

Article type
Paper
Submitted
11 Mar 2024
Accepted
22 Apr 2024
First published
08 May 2024

Phys. Chem. Chem. Phys., 2024,26, 14787-14795

Enhancement of magnetism by tailoring synthesis conditions in electron-doped superconducting nanoparticles

M. F. Falhan, S. Winarsih, R. Pratama, M. A. Syakuur, U. Widyaiswari, A. E. Putri and Risdiana, Phys. Chem. Chem. Phys., 2024, 26, 14787 DOI: 10.1039/D4CP01072H

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