High-coercivity FePt nanoparticle assemblies embedded in silica thin films

Q. Yan; A. Purkayastha; A. P. Singh; H. Li; A. Li; R. V. Ramanujan; G. Ramanath

doi:10.1088/0957-4484/20/2/025609

High-coercivity FePt nanoparticle assemblies embedded in silica thin films

Q. Yan^*, A. Purkayastha, A. P. Singh, H. Li, A. Li, R. V. Ramanujan, G. Ramanath

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

The ability to process assemblies using thin film techniques in a scalable fashion would be a key to transmuting the assemblies into manufacturable devices. Here, we embed FePt nanoparticle assemblies into a silica thin film by sol-gel processing. Annealing the thin film composite at 650°C transforms the chemically disordered fcc FePt phase into the fct phase, yielding magnetic coercivity values H_c>630 mT. The positional order of the particles is retained due to the protection offered by the silica host. Such films with assemblies of high-coercivity magnetic particles are attractive for realizing new types of ultra-high-density data storage devices and magneto-composites.

Original language	English
Article number	025609
Journal	Nanotechnology
Volume	20
Issue number	2
DOIs	https://doi.org/10.1088/0957-4484/20/2/025609
Publication status	Published - Jan 14 2009
Externally published	Yes

ASJC Scopus Subject Areas

Bioengineering
General Chemistry
General Materials Science
Mechanics of Materials
Mechanical Engineering
Electrical and Electronic Engineering

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AU - Yan, Q.

AU - Purkayastha, A.

AU - Singh, A. P.

AU - Li, H.

AU - Li, A.

AU - Ramanujan, R. V.

AU - Ramanath, G.

PY - 2009/1/14

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N2 - The ability to process assemblies using thin film techniques in a scalable fashion would be a key to transmuting the assemblies into manufacturable devices. Here, we embed FePt nanoparticle assemblies into a silica thin film by sol-gel processing. Annealing the thin film composite at 650°C transforms the chemically disordered fcc FePt phase into the fct phase, yielding magnetic coercivity values Hc>630 mT. The positional order of the particles is retained due to the protection offered by the silica host. Such films with assemblies of high-coercivity magnetic particles are attractive for realizing new types of ultra-high-density data storage devices and magneto-composites.

AB - The ability to process assemblies using thin film techniques in a scalable fashion would be a key to transmuting the assemblies into manufacturable devices. Here, we embed FePt nanoparticle assemblies into a silica thin film by sol-gel processing. Annealing the thin film composite at 650°C transforms the chemically disordered fcc FePt phase into the fct phase, yielding magnetic coercivity values Hc>630 mT. The positional order of the particles is retained due to the protection offered by the silica host. Such films with assemblies of high-coercivity magnetic particles are attractive for realizing new types of ultra-high-density data storage devices and magneto-composites.

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High-coercivity FePt nanoparticle assemblies embedded in silica thin films

Abstract

ASJC Scopus Subject Areas

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