Iron Oxide Nanoparticles: Physicochemical Characteristics and Historical Developments to Commercialization for Potential Technological Applications
Kandile, Nadia; Hossein Etemadi; Jenna K. Buchanan; Paul G. Plieger;
Abstract
Iron oxide nanoparticles (IONPs) have gained
increasing attention in various biomedical and industrial sectors
due to their physicochemical and magnetic properties. In the
biomedical field, IONPs are being developed for enzyme/protein
immobilization, magnetofection, cell labeling, DNA detection, and
tissue engineering. However, in some established areas, such as
magnetic resonance imaging (MRI), magnetic drug targeting
(MDT), magnetic fluid hyperthermia (MFH), immunomagnetic
separation (IMS), and magnetic particle imaging (MPI), IONPs
have crossed from the research bench, received clinical approval,
and have been commercialized. Additionally, in industrial sectors
IONP-based fluids (ferrofluids) have been marketed in electronic
and mechanical devices for some time. This review explores the
historical evolution of IONPs to their current state in biomedical
and industrial applications
increasing attention in various biomedical and industrial sectors
due to their physicochemical and magnetic properties. In the
biomedical field, IONPs are being developed for enzyme/protein
immobilization, magnetofection, cell labeling, DNA detection, and
tissue engineering. However, in some established areas, such as
magnetic resonance imaging (MRI), magnetic drug targeting
(MDT), magnetic fluid hyperthermia (MFH), immunomagnetic
separation (IMS), and magnetic particle imaging (MPI), IONPs
have crossed from the research bench, received clinical approval,
and have been commercialized. Additionally, in industrial sectors
IONP-based fluids (ferrofluids) have been marketed in electronic
and mechanical devices for some time. This review explores the
historical evolution of IONPs to their current state in biomedical
and industrial applications
Other data
| Title | Iron Oxide Nanoparticles: Physicochemical Characteristics and Historical Developments to Commercialization for Potential Technological Applications | Authors | Kandile, Nadia ; Hossein Etemadi; Jenna K. Buchanan; Paul G. Plieger | Keywords | nanoparticles;magnetic properties;imaging agents;antitumor agents;drug delivery | Issue Date | 17-Nov-2021 | Publisher | ACS Publications | Journal | ACS Biomaterials Science & Engineering | Volume | 7 | Start page | 5432 | End page | 5450 | DOI | https://doi.org/10.1021/acsbiomaterials.1c00938 |
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