Ranajit Sai scite author profile

Controlled motion of artificial nanomotors in biological environments, such as blood, can lead to fascinating biomedical applications, ranging from targeted drug delivery to microsurgery and many more. In spite of the various strategies used in fabricating and actuating nanomotors, practical issues related to fuel requirement, corrosion, and liquid viscosity have limited the motion of nanomotors to model systems such as water, serum, or biofluids diluted with toxic chemical fuels, such as hydrogen peroxide. As we demonstrate here, integrating conformal ferrite coatings with magnetic nanohelices offer a promising combination of functionalities for having controlled motion in practical biological fluids, such as chemical stability, cytocompatibility, and the generated thrust. These coatings were found to be stable in various biofluids, including human blood, even after overnight incubation, and did not have significant influence on the propulsion efficiency of the magnetically driven nanohelices, thereby facilitating the first successful "voyage" of artificial nanomotors in human blood. The motion of the "nanovoyager" was found to show interesting stick-slip dynamics, an effect originating in the colloidal jamming of blood cells in the plasma. The system of magnetic "nanovoyagers" was found to be cytocompatible with C2C12 mouse myoblast cells, as confirmed using MTT assay and fluorescence microscopy observations of cell morphology. Taken together, the results presented in this work establish the suitability of the "nanovoyager" with conformal ferrite coatings toward biomedical applications.

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ZnFe₂O₄: Rapid and sub-100 °C synthesis and anneal-tuned magnetic properties

Sai

Kulkarni

Vinoy

et al. 2012

J. Mater. Chem.

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Nanocrystalline zinc ferrite (ZFO) has been synthesized from metal acetylacetonates by microwave irradiation for 5 min in the presence of a surfactant. The as-prepared material is ZFO and has been subjected in air to conventional furnace annealing and to rapid annealing at different temperatures. Both annealing protocols lead to well-crystallized ZFO, with crystallite sizes in the range $8-20 nm, which is ferrimagnetic, even at room temperature, with magnetization attaining saturation. While the magnetization M S of conventionally annealed ZFO varies with crystallite size in the expected manner, rapid annealing leads to high M S even when the crystallite size is relatively large. The coercivity is greater in the conventionally annealed ZFO. Thermal and magnetic measurements suggest that the inhomogeneous site cationic distribution within each crystallite caused by rapid annealing can be used to tailor the magnetic behaviour of nanocrystalline ferrites.

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Controlled inversion and surface disorder in zinc ferrite nanocrystallites and their effects on magnetic properties

et al. 2015

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Co/Ti-substituted SrM-based composite sheets: High frequency permeability and electromagnetic noise suppression above 6 GHz

Sai

Sato

Takeda³

et al. 2018

Journal of Magnetism and Magnetic Materials

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Ranajit Sai

Conformal Cytocompatible Ferrite Coatings Facilitate the Realization of a Nanovoyager in Human Blood

ZnFe₂O₄: Rapid and sub-100 °C synthesis and anneal-tuned magnetic properties

Controlled inversion and surface disorder in zinc ferrite nanocrystallites and their effects on magnetic properties

Co/Ti-substituted SrM-based composite sheets: High frequency permeability and electromagnetic noise suppression above 6 GHz

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Ranajit Sai

Conformal Cytocompatible Ferrite Coatings Facilitate the Realization of a Nanovoyager in Human Blood

ZnFe2O4: Rapid and sub-100 °C synthesis and anneal-tuned magnetic properties

Controlled inversion and surface disorder in zinc ferrite nanocrystallites and their effects on magnetic properties

Co/Ti-substituted SrM-based composite sheets: High frequency permeability and electromagnetic noise suppression above 6 GHz

Contact Info

Product

Resources

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ZnFe₂O₄: Rapid and sub-100 °C synthesis and anneal-tuned magnetic properties

Co/Ti-substituted SrM-based composite sheets: High frequency permeability and electromagnetic noise suppression above 6 GHz