期刊
CHEMISTRY-A EUROPEAN JOURNAL
卷 16, 期 26, 页码 7916-7924出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/chem.200902151
关键词
nanostructures; magnetic properties; transition metals; phosphides; C-C coupling
资金
- K. C. Wong Education Foundation of Hong Kong
- National Nature Science Foundation of China [20571068]
- Chinese Ministry of Education [NCET2006-0552]
- Anhui Provincial Education Department [KJ2008A071]
- Creative Research Foundation for Graduate of USTC [KD2008019]
- CAS
Transition-metal phosphide nanowires were facilely synthesized by Ullmann-type reactions between transition metals and triphenylphosphine in vacuum-sealed tubes at 350-400 degrees C. The phase (stoichiometry) of the phosphide products is controllable by tuning the metal/PPh3 molar ratio and concentration, reaction temperature and time, and heating rate. Six classes of iron, cobalt, and nickel phosphide (Fe2P, FeP, Co2P, CoP, Ni2P, and NiP2) nanostructures were prepared to demonstrate the general applicability of this new method. The resulting phosphide nanostructures exhibit interesting phase- and composition-dependent magnetic properties, and magnetic measurements suggested that the Co2P nanowires with anti-PbCl2 structure show a ferromagnetic paramagnetic transition at 6 K, while the MnP-structured CoP nanowires are paramagnetic with Curie Weiss behavior. Moreover, GC-MS analyses of organic byproducts of the reaction revealed that thermally generated phenyl radicals promoted the formation of transition-metal phosphides under synthetic conditions. Our work offers a general method for preparing one-dimensional nanoscale transition-metal phosphides that are promising for magnetic and electronic applications.
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