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Formation of hollow Ni2p nanoparticles based on the nanoscale Kirkendall effect.

Formation of hollow Ni2p nanoparticles based on the nanoscale Kirkendall effect. Colloidal hollow nanoparticles (NPs) of Ni2P have been prepared by a one-pot reaction from a mixture of nickel acetate, oleylamine, trioctylphosphine (TOP), and 1-octadecene. The mechanism to the hollow structure is related to the nanoscale Kirkendall effect. The process contains two important steps. First, oleylamine-stabilized Ni NPs were formed, which can protect them from TOP etching and slow down the inward diffusion of P atoms. Second, the solid-state reaction between the Ni NPs occurred when the TOP concentration and the reaction temperature were correctly adjusted. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Inorganic Chemistry Pubmed

Formation of hollow Ni2p nanoparticles based on the nanoscale Kirkendall effect.

Chiang, Ray-Kuang; Chiang, Ray-Tung
Inorganic Chemistry , Volume 46 (2): 3 – Mar 28, 2007
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Formation of hollow Ni2p nanoparticles based on the nanoscale Kirkendall effect.


Abstract

Colloidal hollow nanoparticles (NPs) of Ni2P have been prepared by a one-pot reaction from a mixture of nickel acetate, oleylamine, trioctylphosphine (TOP), and 1-octadecene. The mechanism to the hollow structure is related to the nanoscale Kirkendall effect. The process contains two important steps. First, oleylamine-stabilized Ni NPs were formed, which can protect them from TOP etching and slow down the inward diffusion of P atoms. Second, the solid-state reaction between the Ni NPs occurred when the TOP concentration and the reaction temperature were correctly adjusted.

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ISSN
0020-1669
DOI
10.1021/ic061846s
pmid
17279811

Abstract

Colloidal hollow nanoparticles (NPs) of Ni2P have been prepared by a one-pot reaction from a mixture of nickel acetate, oleylamine, trioctylphosphine (TOP), and 1-octadecene. The mechanism to the hollow structure is related to the nanoscale Kirkendall effect. The process contains two important steps. First, oleylamine-stabilized Ni NPs were formed, which can protect them from TOP etching and slow down the inward diffusion of P atoms. Second, the solid-state reaction between the Ni NPs occurred when the TOP concentration and the reaction temperature were correctly adjusted.

Journal

Inorganic ChemistryPubmed

Published: Mar 28, 2007

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