# Cu$_{1-x}$Fe$_x$O: Hopping Transport And Ferromagnetism

**Authors:** Mohd. Nasira, Md. A Ahmedb, Rakibul Islamc, Gautham Kumard, Sunil, Kumare, C L Prajapatf, Sajal Biringd, Somaditya Sena

arXiv: 1702.08760 · 2017-03-01

## TL;DR

This study explores how Fe doping in CuO influences its structural, electronic, and magnetic properties, revealing a hopping conduction mechanism and stabilized ferromagnetism due to Fe3+ substitution.

## Contribution

It provides new insights into the coupling of electron and spin in Cu1-xFexO, demonstrating a single hopping mechanism and ferromagnetism stabilization through Fe substitution.

## Key findings

- Hopping conduction mechanism identified for most compositions.
- Fe doping stabilizes ferromagnetism in CuO.
- Variation in coercivity linked to Fe substitution, not impurities.

## Abstract

Single phase, sol-gel prepared Cu1-xFexO (0<x<0.125) are characterized in terms of structural, electronic and magnetic properties. Using dielectric and magnetic studies we investigate the coupling of electron and spin. The electrical conductivities and activation energies are studied with increasing Fe content. Modeling of experimental conductivity data emphasizes on a single hopping mechanism for all samples except x=0.125, which have two activation energies. Hole doping is confirmed from Hall effect [1] and by confirming a majority Fe3+ substitution of Cu2+ in CuO from XPS studies. Such a substitution results in stabilized ferromagnetism. Fe substitution introduces variation in coercivity as an intrinsic magnetic property in Fe-doped CuO, and not as a secondary impurity phase.

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Source: https://tomesphere.com/paper/1702.08760