Nanocomposites containing nanoclusters of selected first-row transition metal phosphides

被引:0
|
作者
Lukehart, CM
Milne, SB
Stock, SR
Shull, RD
Wittig, JE
机构
[1] GEORGIA INST TECHNOL,SCH MAT SCI & ENGN,ATLANTA,GA 30332
[2] NIST,MAT SCI & ENGN LAB,GAITHERSBURG,MD 20899
[3] VANDERBILT UNIV,DEPT APPL & ENGN SCI,NASHVILLE,TN 37235
来源
NANOTECHNOLOGY: MOLECULARLY DESIGNED MATERIALS | 1996年 / 622卷
关键词
D O I
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中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
Addition of the metal phosphine complexes, Fe(CO)(4)L, Ca-2(CO)(6)L'(2), NiL'4, or trans-NiL'Cl-2(2), where L = PPh(2)(CH2)(2)Si(OMe)(3) and L' = PPh(2)(CH2)(2)Si(OEt)(3), to conventional silica sol-gel formulations gives apparent covalent incorporation of these complexes into the resulting silica xerogel matrix. Subsequent thermal treatment under a reducing atmosphere affords nanocomposite materials containing crystalline nanoclusters of Fe2P, Co2P, or Ni2P, respectively, highly dispersed throughout the xerogel matrix. These results indicate that metal phosphine complexes can serve as single-source molecular precursors for nanoparticulate metal phosphide formation. The synthesis and characterization of these nanocomposites is described.
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页码:195 / 204
页数:10
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