Synthesis and characterization of Y and Sm doped Mg nanoferrites

Dhiman, Monika; Rana, Shikha; Batoo, Khalid Mujasam; Sharma, Jyoti; Singh, M.

doi:10.1080/10584587.2017.1368634

Cited by 12 publications

(3 citation statements)

References 11 publications

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“…All the parameters of magnetic properties are shown in table1, and similar results is found in the various parameters (16). In case of MgFe2O4 when doped such as Sm and Y used its corrosivity (Hc) decreases and same trend is found in Magnetics saturation (Ms) and remnant magnetization (Mr) 17 which is listed in the table 1.…”

Section: Effect Of Dopants On Magnetic Properties Of the Ferritessupporting

confidence: 71%

Magnetic Ferrites: A Brief Review About Substation on Electric and Magnetic Properties

Kaur¹,

Kaushal²,

Rana³

et al. 2022

ECS Trans.

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The bulk and nano dimensional ferrites have been widely studied over the last five decades to offer novelty of processing, structural variation during synthesis, and its possible utilization for the advancement of modern devices. Precisely, in order to improve the magnetic properties, the orientation of the atoms or electronic structures inside the crystal are the major causes. Many attempts have been made to understand the behavior of dopants in electronic structures as well as magnetic effects. In addition, an in-depth analysis of the findings published by various researchers is offered here to assist readers in evaluating the previously investigated, variably doped ferrites for their electric and magnetic properties.

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Section: Effect Of Dopants On Magnetic Properties Of the Ferritessupporting

confidence: 71%

Magnetic Ferrites: A Brief Review About Substation on Electric and Magnetic Properties

Kaur¹,

Kaushal²,

Rana³

et al. 2022

ECS Trans.

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“…The advantages and catalytic applications of magnetic spinel ferrites are listed in the Figure 1. The substitution of octahedral positioned Iron by other metal ion can influence the strength of metal-oxygen bond and lattice defects (13). They can show different catalytic behaviour like a biocatalyst, photo catalyst or photo-Fenton catalyst (14).…”

Section: Synthesis and Functionalization Of Ferritementioning

confidence: 99%

A Brief Review on the Use of Ferrite in Catalysis

Rana¹,

Singh²

2022

ECS Trans.

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The developing eminently capable nanocatalyst is a befitting need of catalytic industries. This brief review provides knowledge about the recent advances in use of nanoferrite composites in various catalytic processes like immobilization of enzymes, degradation of harmful contaminants in waste water, synthesis of biofuel. Easy deactivation, less recovery, and low stability like limitations of traditional catalysts are transcended by peculiar nanocatalysts. With latest advancement in synthesis, functionalization and designing techniques the preparation process of efficient ferrite nanocatalyst hybrids is optimized. The various catalytic applications of spinel ferrites are due to facile recovery, stability, and activity provided by ferrites in catalytic processes. In the present article, the behavior of ferrite as biocatalyst, Fenton catalyst and photocatalyst have been briefly reviewed and summarized.

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“…The doped cations are randomly arranged on two crystallographic sites in spinel structure and their arrangement determines the optical, magnetic and electrical characteristics of the SFNMs [10,11,12,13]. The doped cations have particular site preference according to sizes of dopant ion and of interstitial site, preparation method and type of reaction conditions or environment [14,15,16].The positioning of dopant ion within the crystallographic structure i.e. cation distribution has great impact on the magnetic behaviour of the SFNMs.…”

Section: Introductionmentioning

confidence: 99%

Suitability of Ferrites for Biomedical Applications

Dhiman

2021

Materials Research Foundations

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This chapter aims at the latest amelioration in the biomedical application of spinel ferrites. Magnetic hyperthermia treatment of tumour cells and contrast resonance imaging of human body parts, are a few applications of spinel ferrites that have gained substantial interest nowadays. The thermo-therapeutic and radiology based diagnosis treatment has many benefits over traditional methods used for disease diagnosis and imaging treatment of chronic carcinogenic origin diseases. The various types of doped and undoped spinel ferrite nanoparticles are investigated and optimised for different biomedical applications. Through this chapter, an attempt is made to provide readers the knowledge about various required characteristics and latest used strategies for the successful implementations of spinel ferrite in biomedical applications at commercial levels.

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Synthesis and characterization of Y and Sm doped Mg nanoferrites

Cited by 12 publications

References 11 publications

Magnetic Ferrites: A Brief Review About Substation on Electric and Magnetic Properties

Magnetic Ferrites: A Brief Review About Substation on Electric and Magnetic Properties

A Brief Review on the Use of Ferrite in Catalysis

Suitability of Ferrites for Biomedical Applications

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