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将胶束纳米光刻扩展到多组分核壳纳米粒子的自组装。

Expanding micelle nanolithography to the self-assembly of multicomponent core-shell nanoparticles.

机构信息

Max Planck Institute for Metals Research, Heisenbergstrasse 3, D-70569 Stuttgart, Germany.

出版信息

J Am Chem Soc. 2010 Aug 11;132(31):10671-3. doi: 10.1021/ja104098u.

Abstract

Size, composition, and pattern formation are crucial elements in the fabrication of functional multicomponent nanoparticles (NPs). Self-assembly techniques provide relevant control over NP size distribution (down to a few nanometers in diameter), but more importantly, such techniques are amenable for practical applications since the resulting NPs (and arrays thereof) are programmed in the molecular structure of the precursors. Here, the diblock copolymer micelle nanolithography concept of achieving monodisperse NPs is extended to direct the synthesis of multicomponent core-shell NPs arranged in a triangular lattice. Special emphasis is set on Co(core)@Fe(shell) and corrosion resistant (FeCo)(core)@Au(shell) NPs. Electron microscopy analyses show a variety of core-shell geometries spanning a wide range of oxide, metal, and alloy combinations.

摘要

尺寸、组成和图案形成是制备功能型多组分纳米粒子(NPs)的关键要素。自组装技术可实现对 NP 尺寸分布(低至几个纳米直径)的有效控制,但更重要的是,由于所得 NPs(及其阵列)在起始物的分子结构中被编程,因此这些技术适用于实际应用。在此,通过两亲嵌段共聚物胶束纳米光刻概念来实现单分散 NPs,进一步扩展到指导在三角形晶格中排列的多组分核壳 NPs 的合成。特别强调 Co(核)@Fe(壳)和耐腐蚀(FeCo)(核)@Au(壳)NPs。电子显微镜分析显示了各种跨越宽范围的氧化物、金属和合金组合的核壳结构。

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