Article ID Journal Published Year Pages File Type
1791819 Journal of Crystal Growth 2012 6 Pages PDF
Abstract

A facile and surfactant-free approach has been developed for the synthesis of cross-linked hyperbranched copper dendrites using copper oxalate complex as a precursor and oxalic acid as a reducing and structure-directing agent. The synthesized particles are composed of highly branched nanostructures with unusual cross-linked hierarchical networks. The formation of copper dendrites can be explained in view of both diffusion control and aggregation-based growth model accompanied by the chelation-assisted assembly. Oxalic acid was found to play dual roles as reducing and structure-directing agent based on the investigation results. The understanding on the crystal growth and the roles of oxalic acid provides clear insight into the formation mechanism of hyperbranched metal dendrites.

► We successfully synthesized the cross-linked hyperbranched copper dendrites. ► Our method is based on the in-situ reduction of Cu2+ ion in copper oxalate complex. ► The obtained particles are cross-linked hyperbranched nanostructures. ► The aggregation-based growth is responsible for the assembly of the copper structures. ► We offer a new approach for the fabrication of hyperbranched metal dendrites.

Related Topics
Physical Sciences and Engineering Physics and Astronomy Condensed Matter Physics
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