A Review on the Synthesis, Properties and Multifunctional Applications of Transition and Rare-Earth Doped Nickel Spinel Ferrite

Pinky Kotwal; Rohit Jasrotia; Himanshi; Jyoti Prakash; Abhishek Kandwal; Vaseem Raja; Naresh Sharma; Rajesh Kumar

doi:10.1051/e3sconf/202450901011

A Review on the Synthesis, Properties and Multifunctional Applications of Transition and Rare-Earth Doped Nickel Spinel Ferrite

Pinky Kotwal, Rohit Jasrotia^*, Himanshi, Jyoti Prakash, Abhishek Kandwal, Vaseem Raja, Naresh Sharma, Rajesh Kumar

^*Corresponding author for this work

Research output: Contribution to journal › Conference article › peer-review

2 Citations (Scopus)

Abstract

Nickel ferrite have gathered a lot of research interest nowadays, because of their unique magnetic and structural traits, which makes appealing for a variety of scientific applications. In recent years, considerable attention has been placed towards the impact of rare-earth and transition elements doping on the magnetic as well as the structural traits of nickel spinel ferrite. This study delivers a concise summary of scientific advancements in this area. It discusses the processes used for fabricating doped nickel spinel ferrite, the influence of different dopants on the material's magnetic and structural traits, and the mechanisms that underlie these effects. The review also highlights the potential applications of doped nickel spinel ferrite in fields such as magnetic data storage, biomedical, and photocatalysis.

Original language	English
Article number	01011
Journal	E3S Web of Conferences
Volume	509
DOIs	https://doi.org/10.1051/e3sconf/202450901011
Publication status	Published - 8 Apr 2024
Externally published	Yes
Event	2nd International Conference on Sustainable Nanotechnology and Nanomaterials, ICONN 2023 - , India Duration: 27 Jul 2023 → 28 Jul 2023

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title = "A Review on the Synthesis, Properties and Multifunctional Applications of Transition and Rare-Earth Doped Nickel Spinel Ferrite",

abstract = "Nickel ferrite have gathered a lot of research interest nowadays, because of their unique magnetic and structural traits, which makes appealing for a variety of scientific applications. In recent years, considerable attention has been placed towards the impact of rare-earth and transition elements doping on the magnetic as well as the structural traits of nickel spinel ferrite. This study delivers a concise summary of scientific advancements in this area. It discusses the processes used for fabricating doped nickel spinel ferrite, the influence of different dopants on the material's magnetic and structural traits, and the mechanisms that underlie these effects. The review also highlights the potential applications of doped nickel spinel ferrite in fields such as magnetic data storage, biomedical, and photocatalysis.",

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AU - Kotwal, Pinky

AU - Jasrotia, Rohit

AU - Himanshi,

AU - Prakash, Jyoti

AU - Kandwal, Abhishek

AU - Raja, Vaseem

AU - Sharma, Naresh

AU - Kumar, Rajesh

PY - 2024/4/8

Y1 - 2024/4/8

N2 - Nickel ferrite have gathered a lot of research interest nowadays, because of their unique magnetic and structural traits, which makes appealing for a variety of scientific applications. In recent years, considerable attention has been placed towards the impact of rare-earth and transition elements doping on the magnetic as well as the structural traits of nickel spinel ferrite. This study delivers a concise summary of scientific advancements in this area. It discusses the processes used for fabricating doped nickel spinel ferrite, the influence of different dopants on the material's magnetic and structural traits, and the mechanisms that underlie these effects. The review also highlights the potential applications of doped nickel spinel ferrite in fields such as magnetic data storage, biomedical, and photocatalysis.

AB - Nickel ferrite have gathered a lot of research interest nowadays, because of their unique magnetic and structural traits, which makes appealing for a variety of scientific applications. In recent years, considerable attention has been placed towards the impact of rare-earth and transition elements doping on the magnetic as well as the structural traits of nickel spinel ferrite. This study delivers a concise summary of scientific advancements in this area. It discusses the processes used for fabricating doped nickel spinel ferrite, the influence of different dopants on the material's magnetic and structural traits, and the mechanisms that underlie these effects. The review also highlights the potential applications of doped nickel spinel ferrite in fields such as magnetic data storage, biomedical, and photocatalysis.

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A Review on the Synthesis, Properties and Multifunctional Applications of Transition and Rare-Earth Doped Nickel Spinel Ferrite

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