Enhancing the magnetic properties of magnetic nanoparticles

Research output: Contribution to conferencePosterResearch

Standard

Enhancing the magnetic properties of magnetic nanoparticles. / Ahlburg, Jakob; Saura-Múzquiz, Matilde; Stingaciu, Marian; Christensen, Mogens.

2016. Poster session presented at Danscatt Annual meeting 2016, Copenhagen , Denmark.

Research output: Contribution to conferencePosterResearch

Harvard

Ahlburg, J, Saura-Múzquiz, M, Stingaciu, M & Christensen, M 2016, 'Enhancing the magnetic properties of magnetic nanoparticles' Danscatt Annual meeting 2016, Copenhagen , Denmark, 26/05/2016 - 27/05/2016, .

APA

Ahlburg, J., Saura-Múzquiz, M., Stingaciu, M., & Christensen, M. (2016). Enhancing the magnetic properties of magnetic nanoparticles. Poster session presented at Danscatt Annual meeting 2016, Copenhagen , Denmark.

CBE

Ahlburg J, Saura-Múzquiz M, Stingaciu M, Christensen M. 2016. Enhancing the magnetic properties of magnetic nanoparticles. Poster session presented at Danscatt Annual meeting 2016, Copenhagen , Denmark.

MLA

Vancouver

Ahlburg J, Saura-Múzquiz M, Stingaciu M, Christensen M. Enhancing the magnetic properties of magnetic nanoparticles. 2016. Poster session presented at Danscatt Annual meeting 2016, Copenhagen , Denmark.

Author

Ahlburg, Jakob ; Saura-Múzquiz, Matilde ; Stingaciu, Marian ; Christensen, Mogens. / Enhancing the magnetic properties of magnetic nanoparticles. Poster session presented at Danscatt Annual meeting 2016, Copenhagen , Denmark.1 p.

Bibtex

@conference{20163b30505e467aa9dea99646ecee75,
title = "Enhancing the magnetic properties of magnetic nanoparticles",
abstract = "Enhancing the magnetic properties of magnetic nanoparticles J. V. Ahlburg, M. S. M{\'u}squiz, C. Zeuthen, S. Kjeldgaard, M. Stingaciu, M. Christensen Center for Materials Crystallography, Departement of Chemistry & iNano, Aarhus University, Denmark Strong magnets with a high energy product are vital when optimizing the efficiency in the electric industry. But since the rare earth metals, normally used for making strong permanent magnets, are both expensive and difficult to mine, a great demand has come to cheaper types of magnets with a similar magnetic performance. There are several different ways of enhancing magnetic properties of 3d magnetic compounds. This includes, size control, core-shell particles or mixing hard and soft magnetic materials together to achieve an exchange coupling between the compounds and enhancing the magnetic energy product. In order to control the particle size, a hydrothermal synthesis is preferred. This followed by reduction or the oxides into either core shell particles, or a mixture of magnetic oxides and a metallic phase.",
author = "Jakob Ahlburg and Matilde Saura-M{\'u}zquiz and Marian Stingaciu and Mogens Christensen",
year = "2016",
month = "5",
day = "27",
language = "Dansk",
note = "null ; Conference date: 26-05-2016 Through 27-05-2016",

}

RIS

TY - CONF

T1 - Enhancing the magnetic properties of magnetic nanoparticles

AU - Ahlburg, Jakob

AU - Saura-Múzquiz, Matilde

AU - Stingaciu, Marian

AU - Christensen, Mogens

PY - 2016/5/27

Y1 - 2016/5/27

N2 - Enhancing the magnetic properties of magnetic nanoparticles J. V. Ahlburg, M. S. Músquiz, C. Zeuthen, S. Kjeldgaard, M. Stingaciu, M. Christensen Center for Materials Crystallography, Departement of Chemistry & iNano, Aarhus University, Denmark Strong magnets with a high energy product are vital when optimizing the efficiency in the electric industry. But since the rare earth metals, normally used for making strong permanent magnets, are both expensive and difficult to mine, a great demand has come to cheaper types of magnets with a similar magnetic performance. There are several different ways of enhancing magnetic properties of 3d magnetic compounds. This includes, size control, core-shell particles or mixing hard and soft magnetic materials together to achieve an exchange coupling between the compounds and enhancing the magnetic energy product. In order to control the particle size, a hydrothermal synthesis is preferred. This followed by reduction or the oxides into either core shell particles, or a mixture of magnetic oxides and a metallic phase.

AB - Enhancing the magnetic properties of magnetic nanoparticles J. V. Ahlburg, M. S. Músquiz, C. Zeuthen, S. Kjeldgaard, M. Stingaciu, M. Christensen Center for Materials Crystallography, Departement of Chemistry & iNano, Aarhus University, Denmark Strong magnets with a high energy product are vital when optimizing the efficiency in the electric industry. But since the rare earth metals, normally used for making strong permanent magnets, are both expensive and difficult to mine, a great demand has come to cheaper types of magnets with a similar magnetic performance. There are several different ways of enhancing magnetic properties of 3d magnetic compounds. This includes, size control, core-shell particles or mixing hard and soft magnetic materials together to achieve an exchange coupling between the compounds and enhancing the magnetic energy product. In order to control the particle size, a hydrothermal synthesis is preferred. This followed by reduction or the oxides into either core shell particles, or a mixture of magnetic oxides and a metallic phase.

M3 - Poster

ER -