Research Topic · Peer-Reviewed

Magnetic Nanoparticles

Magnetic nanoparticles are nanoscale particles, typically composed of iron oxides or other ferromagnetic and superparamagnetic materials, whose behavior in an applied magnetic field gives them distinctive functionality. They generally consist of a magnetic core surrounded by a stabilizing shell or surface coating th…

Curated from this journal's research 📚 7 peer-reviewed articles cited Cited 216× across the literature 🔖 ISSN 2689-2855 🗓 Reviewed July 2026

Overview

Magnetic nanoparticles are nanoscale particles, typically composed of iron oxides or other ferromagnetic and superparamagnetic materials, whose behavior in an applied magnetic field gives them distinctive functionality. They generally consist of a magnetic core surrounded by a stabilizing shell or surface coating that controls dispersion, prevents aggregation, and provides sites for attaching targeting molecules or therapeutic payloads. At sufficiently small sizes the particles become superparamagnetic, responding strongly to external fields while retaining no permanent magnetization once the field is removed, a property central to their applications. In biomedicine, magnetic nanoparticles are investigated for targeted drug delivery, in which magnetic guidance concentrates therapy at a desired site; for magnetic hyperthermia, in which alternating fields induce localized heating to damage tumor tissue; and as contrast agents in magnetic resonance imaging. Their large surface-area-to-volume ratio also supports use in separation, catalysis, and biosensing. Synthesis methods such as co-precipitation, thermal decomposition, and sol-gel routes control particle size, composition, and surface chemistry, which in turn govern magnetic strength, stability, and biocompatibility. Functionalization with polymers, silica, or biomolecules tailors the particles for specific targets while reducing toxicity. Studying magnetic nanoparticles integrates materials science, magnetism, and biomedical engineering to design particles whose magnetic, structural, and surface properties meet the demands of therapeutic, diagnostic, and technological applications.

Research published in this journal

7 peer-reviewed articles, ranked by relevance. Each links to its DOI.

2020

pH-Sensitive Nanomedicine for Treating Gynaecological Cancers

Vishwanath Prasad PramodCorresponding author
Center for Biomedical Research, Population Council, The Rockefeller University, 1230 York Avenue, New York, NY 10065, USA
Exact topic Women's Reproductive Health Cited by 8 doi:10.14302/issn.2381-862X.jwrh-19-3143
2019

Quantum Dots- Tiny Semiconductor Nanodots

Tabassum Khan NidaCorresponding author
Department of Biotechnology, Faculty of Life Sciences and Informatics, Balochistan University of Information, Technology Engineering and Management Sciences, (BUITEMS), Quetta, Pakistan
Advances in Nanotechnology Cited by 5 doi:10.14302/issn.2689-2855.jan-19-3012

How this research is being cited

The 7 articles above have been cited 216 times in the scholarly literature. Citation data via OpenAlex and Crossref, updated Jun 2026.

A sample of recent works citing this journal's research on Magnetic Nanoparticles, linking to each citing work.

Editorial oversight

Curated from peer-reviewed research published in Advances in Nanotechnology (ISSN 2689-2855).

Journal editorial board
Zairov Rustem · Russia Mohamed BALLI · Canada Dr Anum Shafiq · Czech Republic

This page summarises published research for orientation; it is not medical or professional advice.