Preparation and characterization of cobalt-based nanostructured materials

被引：0

作者：

G. Carotenuto

L. Pasquini

E. Milella

M. Pentimalli

R. Lamanna

L. Nicolais

机构：

[1] Istituto per i Materiali Compositi e Biomedici. Consiglio Nazionale delle Ricerche. Piazzale Tecchio,

[2] 80 - 80125,undefined

[3] Napoli,undefined

[4] Italy,undefined

[5] Dipartimento di Fisica. Universitá di Bologna e INFM V.le Berti-Pichat 6/2I - 40127,undefined

[6] Bologna,undefined

[7] Italy,undefined

[8] MAT-COMP. ENEA C.R. Brindisi S.S. 7 Appia Km 713.7 - 72100,undefined

[9] Brindisi,undefined

[10] Italy,undefined

[11] BIOTEC-AGRO. ENEA C.R. Trisaia S.S. 106 Jonica Km 419.5 - 75026,undefined

[12] Rotondella,undefined

[13] Matera,undefined

[14] Italy,undefined

来源：

The European Physical Journal B - Condensed Matter and Complex Systems | 2003年 / 31卷

关键词：

PACS. 68.43.-h Chemisorption/physisorption: adsorbates on surfaces – 81.07.Pr Organic-inorganic hybrid nanostructures – 81.16.Be Chemical synthesis methods;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

Nano-sized cobalt clusters passivated by alkane-thiol molecules were obtained by the action of concentrated thiol solutions on micrometric cobalt particles. Thiol molecules caused an erosive process on the metal grains with the consequent formation of nano-sized metal debris and cobalt thiolate as by-product. The final material microstructure was composed by cobalt clusters embedded into a continuum cobalt thiolate matrix. Depending on the thiol molecule length, the material texture ranged from rubbery to waxy. These new types of nanocomposite materials were found to be crystalline, thermally stable up to ca. 300 °C, intensely red colored, and high hydrophobic. In addition, they generated polymeric structures when dissolved in non-polar solvents.

引用

页码：545 / 551

页数：6

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