操控金铜-氧化铁哑铃状纳米复合材料中纳米氧化物域的形态，以此作为改变磁性的一种手段。

Manipulating the morphology of the nano oxide domain in AuCu-iron oxide dumbbell-like nanocomposites as a tool to modify magnetic properties.

作者信息

Najafishirtari Sharif, Lak Aidin, Guglieri Clara, Marras Sergio, Brescia Rosaria, Fiorito Sergio, Sadrollahi Elaheh, Litterst Fred Jochen, Pellegrino Teresa, Manna Liberato, Colombo Massimo

机构信息

Nanochemistry Department, Istituto Italiano di Tecnologia Via Morego 30 16163 Genoa Italy

Nanomaterials for Biomedical Applications, Istituto Italiano di Tecnologia Via Morego 30 16163 Genoa Italy.

出版信息

RSC Adv. 2018 Jun 19;8(40):22411-22421. doi: 10.1039/c8ra03399d.

DOI:10.1039/c8ra03399d

PMID:35539741

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9081108/

Abstract

We report the colloidal synthesis of hybrid dumbbell-like nanocrystals (NCs) which feature a plasmonic metal domain (M) attached to a morphologically-tunable magnetic oxide domain (MOx). We highlight how the modulation of the amount of oleic acid (OlAc) in the synthesis mixture influences the final composition of the M domain, the morphology of the MOx domain and, consequently, the magnetic properties of the hetero-structures. In the presence of high amounts of OlAc, a crystalline, magnetite MOx is mainly formed, coupled with a partial dealloying between Au and Cu in the M domain. Decreasing the amount of OlAc preserved the AuCu alloy and resulted in the formation of core-shell structures in the MOx. Here, a disordered, poorly crystalline, glass-like maghemite shell was coupled with a highly disordered iron rich core. An investigation into the magnetic properties revealed that the disordered phase was likely responsible for the observed exchange bias, rather than the interfacial stress between the M and MOx.

摘要

我们报道了杂化哑铃状纳米晶体（NCs）的胶体合成，其特征是等离子体金属域（M）附着在形态可调控的磁性氧化物域（MOx）上。我们着重介绍了合成混合物中油酸（OlAc）含量的调节如何影响M域的最终组成、MOx域的形态，进而影响异质结构的磁性。在大量OlAc存在的情况下，主要形成结晶的磁铁矿MOx，同时M域中的Au和Cu发生部分脱合金化。减少OlAc的量可保留AuCu合金，并导致MOx中形成核壳结构。在此，无序、结晶性差的玻璃状磁赤铁矿壳与高度无序的富铁芯相结合。对磁性的研究表明，无序相可能是观察到的交换偏置的原因，而不是M和MOx之间的界面应力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/be81/9081108/d40f2cb94384/c8ra03399d-s1.jpg

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操控金铜-氧化铁哑铃状纳米复合材料中纳米氧化物域的形态，以此作为改变磁性的一种手段。

Manipulating the morphology of the nano oxide domain in AuCu-iron oxide dumbbell-like nanocomposites as a tool to modify magnetic properties.

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