Synthesis of MnP Nanocrystals by Treatment of Metal Carbonyl Complexes with Phosphines: A New, Versatile Route to Nanoscale Transition Metal Phosphides

The reaction of Mn2(CO)10 with P(SiMe3)3 in coordinating solvents at T ≥ 220 °C yields low polydispersity, highly crystalline MnP nanoparticles for the first time. The effect of dimensional limiting has resulted in the stabilization of a ferromagnetic ground state at low temperatures, rather than th...

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Veröffentlicht in:	Journal of the American Chemical Society 2003-11, Vol.125 (46), p.13960-13961
Hauptverfasser:	Perera, Susanthri C, Tsoi, Georgy, Wenger, Lowell E, Brock, Stephanie L
Format:	Artikel
Sprache:	eng
Schlagworte:	Condensed matter: electronic structure, electrical, magnetic, and optical properties Exact sciences and technology Fine-particle systems Magnetic properties and materials Physics Small particles and nanoscale materials Studies of specific magnetic materials
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container_end_page	13961
container_issue	46
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container_title	Journal of the American Chemical Society
container_volume	125
creator	Perera, Susanthri C Tsoi, Georgy Wenger, Lowell E Brock, Stephanie L
description	The reaction of Mn2(CO)10 with P(SiMe3)3 in coordinating solvents at T ≥ 220 °C yields low polydispersity, highly crystalline MnP nanoparticles for the first time. The effect of dimensional limiting has resulted in the stabilization of a ferromagnetic ground state at low temperatures, rather than the metamagnetic state observed in bulk (microcrystalline) MnP. The synthetic methodology reported here is demonstrated to be general for a number of different metals and phosphine sources.
doi_str_mv	10.1021/ja038037h
format	Article
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subjects	Condensed matter: electronic structure, electrical, magnetic, and optical properties Exact sciences and technology Fine-particle systems Magnetic properties and materials Physics Small particles and nanoscale materials Studies of specific magnetic materials
title	Synthesis of MnP Nanocrystals by Treatment of Metal Carbonyl Complexes with Phosphines: A New, Versatile Route to Nanoscale Transition Metal Phosphides
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