Issue 43, 2018

Effect of ionic size compensation by Ag+ incorporation in homogeneous Fe-substituted ZnO: studies on structural, mechanical, optical, and magnetic properties

Abstract

Substituting an ion of different size from that of the host element introduces lattice strain and defects. However, this mismatch may be significantly reduced by substituting an additional ion with a compensating size relative to the dopant. Such a double substitution might offer better solubility irrespective of the local distortions as well as the formation of defects in the valence states. Fe-substituted ZnO has been widely reported with conflicting results primarily arising from lack of chemical and structural homogeneity originating from preparation techniques, compositional fluctuations, and equivocal comprehension of actual solubility limits of the dopants. In this study, Ag ion has been incorporated in Fe-substituted ZnO to compensate the ionic size of Zn1−x[Fe0.8Ag0.2]xO (0 ≤ x ≤ 0.03125) by determining the solubility limit of the homogeneous material and their corresponding structural, mechanical, optical and magnetic properties have been investigated thoroughly. Co-substitution rearranges the lattice and leads to better crystal structures with tunable properties related to the amount of substitution.

Graphical abstract: Effect of ionic size compensation by Ag+ incorporation in homogeneous Fe-substituted ZnO: studies on structural, mechanical, optical, and magnetic properties

Associated articles

Article information

Article type
Paper
Submitted
19 Mar 2018
Accepted
21 Jun 2018
First published
05 Jul 2018
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2018,8, 24355-24369

Effect of ionic size compensation by Ag+ incorporation in homogeneous Fe-substituted ZnO: studies on structural, mechanical, optical, and magnetic properties

G. Bajpai, T. Srivastava, N. Patra, I. Moirangthem, S. N. Jha, D. Bhattacharyya, S. Riyajuddin, K. Ghosh, D. R. Basaula, M. Khan, S. Liu, S. Biring and S. Sen, RSC Adv., 2018, 8, 24355 DOI: 10.1039/C8RA02393J

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