Literature DB >> 28178419

Thermal Decomposition Synthesis of Iron Oxide Nanoparticles with Diminished Magnetic Dead Layer by Controlled Addition of Oxygen.

Mythreyi Unni1,2, Amanda M Uhl1,2, Shehaab Savliwala1,2, Benjamin H Savitzky1,2, Rohan Dhavalikar1,2, Nicolas Garraud1,2, David P Arnold1,2, Lena F Kourkoutis1,2, Jennifer S Andrew1,2, Carlos Rinaldi1,2.   

Abstract

Decades of research focused on size and shape control of iron oxide nanoparticles have led to methods of synthesis that afford excellent control over physical size and shape but comparatively poor control over magnetic properties. Popular synthesis methods based on thermal decomposition of organometallic precursors in the absence of oxygen have yielded particles with mixed iron oxide phases, crystal defects, and poorer than expected magnetic properties, including the existence of a thick "magnetically dead layer" experimentally evidenced by a magnetic diameter significantly smaller than the physical diameter. Here, we show how single-crystalline iron oxide nanoparticles with few defects and similar physical and magetic diameter distributions can be obtained by introducing molecular oxygen as one of the reactive species in the thermal decomposition synthesis. This is achieved without the need for any postsynthesis oxidation or thermal annealing. These results address a significant challenge in the synthesis of nanoparticles with predictable magnetic properties and could lead to advances in applications of magnetic nanoparticles.

Entities:  

Keywords:  iron oxide; magnetic dead layer; magnetic diameter; magnetic nanoparticles; oxygen; thermal decomposition

Year:  2017        PMID: 28178419      PMCID: PMC6004320          DOI: 10.1021/acsnano.7b00609

Source DB:  PubMed          Journal:  ACS Nano        ISSN: 1936-0851            Impact factor:   15.881


  43 in total

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