Role of Zn2+ Substitution on the Magnetic, Hyperthermic, and Relaxometric Properties of Cobalt Ferrite Nanoparticles
Zinc substitution is often proposed as an efficient strategy to improve the performances of spinel ferrite nanoparticles, particularly related to their application as theranostic agents. In this work, a series of 8 nm spinel ferrite nanoparticles of formula Co x Zn y Fe3–(x+y)O4 is synthesized by th...
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| Published in | Journal of physical chemistry. C Vol. 123; no. 10; pp. 6148 - 6157 |
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| Main Authors | , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Chemical Society
14.03.2019
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| Subjects | |
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| Abstract | Zinc substitution is often proposed as an efficient strategy to improve the performances of spinel ferrite nanoparticles, particularly related to their application as theranostic agents. In this work, a series of 8 nm spinel ferrite nanoparticles of formula Co x Zn y Fe3–(x+y)O4 is synthesized by thermal decomposition with the purpose of investigating the role of Zn2+ ions in modifying the structural and magnetic properties. Contrary to most of the literature on this subject, where the sum of Co and Zn is kept constant (x + y = 1), here, the amount of Co is maintained at ca. x = 0.6, corresponding to the maximum of magnetic anisotropy of the Zn-undoped system, whereas the amount of Zn is progressively varied along the series from y = 0.05 to 0.4. This approach allows enlightening the effect of the Zn introduction on the magnetic and crystal structures and, particularly, on magnetic anisotropy, which is deeply investigated by several complementary techniques. A significant increase of the saturation magnetization, M S, upon the Zn content up to y = 0.4 is confirmed only at low temperature, whereas at room temperature, this effect is partially nullified by the weakening of the magnetic exchange coupling constants due to the increasing Zn substitution. Moreover, we demonstrate that the lattice modifications following the Zn introduction are responsible of a strong decrease of the particle magnetic anisotropy. Overall, these effects limit the use of Zn-substituted ferrites in biomedical applications like magnetic resonance imaging and magnetic fluid hyperthermia only to very low amount of Zn, as here confirmed by relaxometric and calorimetric measurements. |
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| AbstractList | Zinc substitution is often proposed as an efficient strategy to improve the performances of spinel ferrite nanoparticles, particularly related to their application as theranostic agents. In this work, a series of 8 nm spinel ferrite nanoparticles of formula Co x Zn y Fe3–(x+y)O4 is synthesized by thermal decomposition with the purpose of investigating the role of Zn2+ ions in modifying the structural and magnetic properties. Contrary to most of the literature on this subject, where the sum of Co and Zn is kept constant (x + y = 1), here, the amount of Co is maintained at ca. x = 0.6, corresponding to the maximum of magnetic anisotropy of the Zn-undoped system, whereas the amount of Zn is progressively varied along the series from y = 0.05 to 0.4. This approach allows enlightening the effect of the Zn introduction on the magnetic and crystal structures and, particularly, on magnetic anisotropy, which is deeply investigated by several complementary techniques. A significant increase of the saturation magnetization, M S, upon the Zn content up to y = 0.4 is confirmed only at low temperature, whereas at room temperature, this effect is partially nullified by the weakening of the magnetic exchange coupling constants due to the increasing Zn substitution. Moreover, we demonstrate that the lattice modifications following the Zn introduction are responsible of a strong decrease of the particle magnetic anisotropy. Overall, these effects limit the use of Zn-substituted ferrites in biomedical applications like magnetic resonance imaging and magnetic fluid hyperthermia only to very low amount of Zn, as here confirmed by relaxometric and calorimetric measurements. Zinc substitution is often proposed as an efficient strategy to improve the performances of spinel ferrite nanoparticles, particularly related to their application as theranostic agents. In this work, a series of 8 nm spinel ferrite nanoparticles of formula CoₓZnyFe₃–₍ₓ₊y₎O₄ is synthesized by thermal decomposition with the purpose of investigating the role of Zn²⁺ ions in modifying the structural and magnetic properties. Contrary to most of the literature on this subject, where the sum of Co and Zn is kept constant (x + y = 1), here, the amount of Co is maintained at ca. x = 0.6, corresponding to the maximum of magnetic anisotropy of the Zn-undoped system, whereas the amount of Zn is progressively varied along the series from y = 0.05 to 0.4. This approach allows enlightening the effect of the Zn introduction on the magnetic and crystal structures and, particularly, on magnetic anisotropy, which is deeply investigated by several complementary techniques. A significant increase of the saturation magnetization, MS, upon the Zn content up to y = 0.4 is confirmed only at low temperature, whereas at room temperature, this effect is partially nullified by the weakening of the magnetic exchange coupling constants due to the increasing Zn substitution. Moreover, we demonstrate that the lattice modifications following the Zn introduction are responsible of a strong decrease of the particle magnetic anisotropy. Overall, these effects limit the use of Zn-substituted ferrites in biomedical applications like magnetic resonance imaging and magnetic fluid hyperthermia only to very low amount of Zn, as here confirmed by relaxometric and calorimetric measurements. |
| Author | Bonanni, Valentina Pineider, Francesco Gurioli, Massimo Innocenti, Claudia Sangregorio, Claudio López-Ortega, Alberto Campo, Giulio de Julián Fernández, Cesar Bertoni, Giovanni Albino, Martin Arosio, Paolo Lascialfari, Alessandro Fantechi, Elvira Orlando, Tomas |
| AuthorAffiliation | Department of Chemistry “U. Schiff” Universidad de Castilla-La Mancha Department of Physics and INSTM Department of Chemistry and Industrial Chemistry ICCOM - CNR and INSTM University of Milan and INSTM Department of Physics and Astronomy University of Pavia University of Florence and INSTM Instituto de Nanociencia, Nanotecnología y Materiales Moleculares and Depto. de Física Aplicada Department of Physics |
| AuthorAffiliation_xml | – name: Department of Chemistry and Industrial Chemistry – name: Department of Physics and Astronomy – name: Universidad de Castilla-La Mancha – name: Department of Chemistry “U. Schiff” – name: Instituto de Nanociencia, Nanotecnología y Materiales Moleculares and Depto. de Física Aplicada – name: University of Milan and INSTM – name: ICCOM - CNR and INSTM – name: Department of Physics – name: Department of Physics and INSTM – name: University of Pavia – name: University of Florence and INSTM |
| Author_xml | – sequence: 1 givenname: Martin surname: Albino fullname: Albino, Martin organization: University of Florence and INSTM – sequence: 2 givenname: Elvira orcidid: 0000-0002-9323-2198 surname: Fantechi fullname: Fantechi, Elvira organization: Department of Chemistry and Industrial Chemistry – sequence: 3 givenname: Claudia surname: Innocenti fullname: Innocenti, Claudia email: claudia.innocenti@unifi.it organization: ICCOM - CNR and INSTM – sequence: 4 givenname: Alberto orcidid: 0000-0003-3440-4444 surname: López-Ortega fullname: López-Ortega, Alberto organization: Universidad de Castilla-La Mancha – sequence: 5 givenname: Valentina surname: Bonanni fullname: Bonanni, Valentina organization: University of Milan and INSTM – sequence: 6 givenname: Giulio surname: Campo fullname: Campo, Giulio organization: University of Florence and INSTM – sequence: 7 givenname: Francesco orcidid: 0000-0003-4066-4031 surname: Pineider fullname: Pineider, Francesco organization: Department of Chemistry and Industrial Chemistry – sequence: 8 givenname: Massimo surname: Gurioli fullname: Gurioli, Massimo organization: Department of Physics and Astronomy – sequence: 9 givenname: Paolo surname: Arosio fullname: Arosio, Paolo organization: University of Milan and INSTM – sequence: 10 givenname: Tomas surname: Orlando fullname: Orlando, Tomas organization: University of Pavia – sequence: 11 givenname: Giovanni orcidid: 0000-0001-6424-9102 surname: Bertoni fullname: Bertoni, Giovanni – sequence: 12 givenname: Cesar orcidid: 0000-0002-6671-2743 surname: de Julián Fernández fullname: de Julián Fernández, Cesar – sequence: 13 givenname: Alessandro surname: Lascialfari fullname: Lascialfari, Alessandro organization: University of Milan and INSTM – sequence: 14 givenname: Claudio orcidid: 0000-0002-2655-3901 surname: Sangregorio fullname: Sangregorio, Claudio email: csangregorio@iccom.cnr.it organization: ICCOM - CNR and INSTM |
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| SubjectTerms | ambient temperature anisotropy calorimetry cobalt crystal structure ferrimagnetic materials fever ions magnetic properties magnetic resonance imaging magnetism nanoparticles thermal degradation zinc |
| Title | Role of Zn2+ Substitution on the Magnetic, Hyperthermic, and Relaxometric Properties of Cobalt Ferrite Nanoparticles |
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