Bioapplications of Magnetic Nanowires: Barcodes, Biocomposites, Heaters

Reza Zamani; Yali Zhang; Joseph Um; Kartihik Srinivasan; Anirudh Sharma; Daniel Shore; Zhe Gao; Yicong Chen; Allison Harpel; Zohreh Nemati Porshokouh; Thomas E. Gage; Oana Dragos-Pinzaru; Ibro Tabakovic; P. B. Visscher; John Bischof; Jaime F. Modiano; Rhonda Franklin; Bethanie JH Stadler

doi:10.1109/TMAG.2022.3151608

Bioapplications of Magnetic Nanowires: Barcodes, Biocomposites, Heaters

Reza Zamani, Yali Zhang, Joseph Um, Kartihik Srinivasan, Anirudh Sharma, Daniel Shore, Zhe Gao, Yicong Chen, Allison Harpel, Zohreh Nemati Porshokouh, Thomas E. Gage, Oana Dragos-Pinzaru, Ibro Tabakovic, P. B. Visscher, John Bischof, Jaime F. Modiano, Rhonda Franklin, Bethanie JH Stadler

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

2 Scopus citations

Abstract

Magnetic nanowires (MNWs) can have their moments reversed via several mechanisms that are controlled using the composition, length, diameter, and density of nanowires in arrays as-synthesized or as individual nanoparticles in assays or gels. This tailoring of magnetic reversal leads to unique properties that can be used as a signature for reading out the type of MNW for applications as nano-barcodes. When synthesized inside track-etched polycarbonate membranes, the resulting MNW-embedded membranes can be used as biocompatible bandaids for detection without contact or optical sighting. When etched out of the growth template, free-floating MNWs are internalized by cells at 37 °C such that cells and/or exosomes can be collected and detected. In applications of cryopreservation, MNWs can be suspended in cryopreservation agents (CPAs) for injection into the blood vessels of tissues and organs as they are vitrified to -200 °C. Using an alternating magnetic field, the MNWs can then be nanowarmed rapidly to prevent crystallization and uniformly to prevent cracking of specimens, for example, as grafts or transplants. This invited paper is a review of recent progress in the specific bioapplications of MNWs to barcodes, biocomposites, and nanowarmers.

Original language	English (US)
Article number	5200406
Journal	IEEE Transactions on Magnetics
Volume	58
Issue number	8
DOIs	https://doi.org/10.1109/TMAG.2022.3151608
State	Published - Aug 1 2022

Bibliographical note

Publisher Copyright:
© 1965-2012 IEEE.

Keywords

FORC
barcodes
biocomposites
first order refersal curves
magnetic nanowires
nanowarmers
projection method

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Zamani, R., Zhang, Y., Um, J., Srinivasan, K., Sharma, A., Shore, D., Gao, Z., Chen, Y., Harpel, A., Porshokouh, Z. N., Gage, T. E., Dragos-Pinzaru, O., Tabakovic, I., Visscher, P. B., Bischof, J., Modiano, J. F., Franklin, R., & Stadler, B. JH. (2022). Bioapplications of Magnetic Nanowires: Barcodes, Biocomposites, Heaters. IEEE Transactions on Magnetics, 58(8), Article 5200406. https://doi.org/10.1109/TMAG.2022.3151608

Zamani, R, Zhang, Y, Um, J, Srinivasan, K, Sharma, A, Shore, D, Gao, Z, Chen, Y, Harpel, A, Porshokouh, ZN, Gage, TE, Dragos-Pinzaru, O, Tabakovic, I, Visscher, PB, Bischof, J , Modiano, JF , Franklin, R & Stadler, BJH 2022, 'Bioapplications of Magnetic Nanowires: Barcodes, Biocomposites, Heaters', IEEE Transactions on Magnetics, vol. 58, no. 8, 5200406. https://doi.org/10.1109/TMAG.2022.3151608

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abstract = "Magnetic nanowires (MNWs) can have their moments reversed via several mechanisms that are controlled using the composition, length, diameter, and density of nanowires in arrays as-synthesized or as individual nanoparticles in assays or gels. This tailoring of magnetic reversal leads to unique properties that can be used as a signature for reading out the type of MNW for applications as nano-barcodes. When synthesized inside track-etched polycarbonate membranes, the resulting MNW-embedded membranes can be used as biocompatible bandaids for detection without contact or optical sighting. When etched out of the growth template, free-floating MNWs are internalized by cells at 37 °C such that cells and/or exosomes can be collected and detected. In applications of cryopreservation, MNWs can be suspended in cryopreservation agents (CPAs) for injection into the blood vessels of tissues and organs as they are vitrified to -200 °C. Using an alternating magnetic field, the MNWs can then be nanowarmed rapidly to prevent crystallization and uniformly to prevent cracking of specimens, for example, as grafts or transplants. This invited paper is a review of recent progress in the specific bioapplications of MNWs to barcodes, biocomposites, and nanowarmers.",

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AU - Zamani, Reza

AU - Zhang, Yali

AU - Um, Joseph

AU - Srinivasan, Kartihik

AU - Sharma, Anirudh

AU - Shore, Daniel

AU - Gao, Zhe

AU - Chen, Yicong

AU - Harpel, Allison

AU - Porshokouh, Zohreh Nemati

AU - Gage, Thomas E.

AU - Dragos-Pinzaru, Oana

AU - Tabakovic, Ibro

AU - Visscher, P. B.

AU - Bischof, John

AU - Modiano, Jaime F.

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N2 - Magnetic nanowires (MNWs) can have their moments reversed via several mechanisms that are controlled using the composition, length, diameter, and density of nanowires in arrays as-synthesized or as individual nanoparticles in assays or gels. This tailoring of magnetic reversal leads to unique properties that can be used as a signature for reading out the type of MNW for applications as nano-barcodes. When synthesized inside track-etched polycarbonate membranes, the resulting MNW-embedded membranes can be used as biocompatible bandaids for detection without contact or optical sighting. When etched out of the growth template, free-floating MNWs are internalized by cells at 37 °C such that cells and/or exosomes can be collected and detected. In applications of cryopreservation, MNWs can be suspended in cryopreservation agents (CPAs) for injection into the blood vessels of tissues and organs as they are vitrified to -200 °C. Using an alternating magnetic field, the MNWs can then be nanowarmed rapidly to prevent crystallization and uniformly to prevent cracking of specimens, for example, as grafts or transplants. This invited paper is a review of recent progress in the specific bioapplications of MNWs to barcodes, biocomposites, and nanowarmers.

AB - Magnetic nanowires (MNWs) can have their moments reversed via several mechanisms that are controlled using the composition, length, diameter, and density of nanowires in arrays as-synthesized or as individual nanoparticles in assays or gels. This tailoring of magnetic reversal leads to unique properties that can be used as a signature for reading out the type of MNW for applications as nano-barcodes. When synthesized inside track-etched polycarbonate membranes, the resulting MNW-embedded membranes can be used as biocompatible bandaids for detection without contact or optical sighting. When etched out of the growth template, free-floating MNWs are internalized by cells at 37 °C such that cells and/or exosomes can be collected and detected. In applications of cryopreservation, MNWs can be suspended in cryopreservation agents (CPAs) for injection into the blood vessels of tissues and organs as they are vitrified to -200 °C. Using an alternating magnetic field, the MNWs can then be nanowarmed rapidly to prevent crystallization and uniformly to prevent cracking of specimens, for example, as grafts or transplants. This invited paper is a review of recent progress in the specific bioapplications of MNWs to barcodes, biocomposites, and nanowarmers.

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Bioapplications of Magnetic Nanowires: Barcodes, Biocomposites, Heaters

Abstract

Bibliographical note

Keywords

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ATP-Bio: NSF Engineering Research Center for Advanced Technologies for the Preservation of Biological Systems (ATP-Bio)

University of Minnesota Materials Research Science and Engineering Center (DMR-2011401)

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Bioapplications of Magnetic Nanowires: Barcodes, Biocomposites, Heaters

Abstract

Bibliographical note

Keywords

MRSEC Support

Publisher link

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Projects

ATP-Bio: NSF Engineering Research Center for Advanced Technologies for the Preservation of Biological Systems (ATP-Bio)

University of Minnesota Materials Research Science and Engineering Center (DMR-2011401)

Cite this