Synthesis of GeFe_(1.4) Nanoparticles Using the Transformation of Iron Trisoxalategermanium Metal Coordination Nanopolymers by Solid Phase Reduction

Mami Yamada; Ryuji Ohkawa; Mikio Miyake

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Synthesis of GeFe_(1.4) Nanoparticles Using the Transformation of Iron Trisoxalategermanium Metal Coordination Nanopolymers by Solid Phase Reduction

机译：固相还原法合成三草酸锗铁金属配位纳米聚合物合成GeFe_（1.4）纳米粒子

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In this communication, we demonstrate the novel preparation of alloy metal nanoparticles using a nanometer-sized metal coordination polymer (MCNP) as a precursor. The presented method works effectively for the construction of an uncommon alloy nanoparticle such as a IV semiconductor-transition metal alloy. Iron trisoxalategermanium MCNPs stabilized by stealylamine (SA) were newly synthesized in reverse micelle technique, and Ge-ox-Fe-SA was successfully transformed into GeFe_(1.4) alloy metal nanoparticles by a gas phase reduction of metal sites under H_2, accompanied by the removal of the bridging oxalate ligands. The prepared GeFe_(1.4) nanoparticles exhibited unique ferromagnetic behavior.

机译：在此交流中，我们演示了使用纳米级金属配位聚合物（MCNP）作为前体的合金金属纳米颗粒的新型制备方法。提出的方法有效地用于构造不常见的合金纳米粒子，例如IV半导体过渡金属合金。用逆胶束技术新合成了由隐胺（SA）稳定化的三草酸锗铁MCNPs，并通过在H_2下气相还原金属位点，成功地将Ge-ox-Fe-SA转化为GeFe_（1.4）合金金属纳米颗粒。去除桥接的草酸盐配体。制备的GeFe_（1.4）纳米粒子表现出独特的铁磁行为。

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来源
《電気学会論文誌 C:電子·情報·システム部門誌》 |2007年第9期|1342-1343|共2页
作者
Mami Yamada; Ryuji Ohkawa; Mikio Miyake;
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作者单位

Tokyo University of Agriculture and Technology, Department of Applied Chemistry, 2-24-16 Nakacho, Koganei, Tokyo 184-8588;

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原文格式 PDF
正文语种 eng
中图分类通信;电工技术;
关键词
nanoparticle; metal coordination polymer; solid phase reduction; alloy;

机译：纳米粒子金属配位聚合物固相还原合金;

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Synthesis of GeFe_(1.4) Nanoparticles Using the Transformation of Iron Trisoxalategermanium Metal Coordination Nanopolymers by Solid Phase Reduction

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