Properties of Nanocomposite Ag-Cu Colloids Prepared by Electrical Spark Discharge Method
Meng-Yun Chung, Kuo-Tung Chen, Chaur-Yang Chang, Jun-Fu Hang, Kuo-Hsiung Tseng

TL;DR
This paper explores the creation of Ag–Cu nanocomposite colloids using electrical spark discharge and examines their properties based on different electrode materials and conditions.
Contribution
The study introduces a novel method for producing Ag–Cu colloids using electrical spark discharge and evaluates their structural and optical properties.
Findings
Colloid properties varied with electrode composition and process parameters.
XRD analysis showed a 97:3 Ag–Cu particle ratio in colloids made from pure metal wires.
Lattice widths increased in composite wire-produced colloids, indicating structural defects.
Abstract
Electrical spark discharge was used to prepare nano Ag–Cu colloids with an electrical discharge machine, deionized water (DW) as the dielectric fluid (DF), and at room temperature and normal pressure. The upper and lower electrodes of the electrical discharge machine were pure Ag and Cu wires or composite metal wires with an Ag–Cu ratio of 92.5:7.5 or 72:28. The optimal Ton–Toff, process time, and current for colloid production were identified as 30–30 µs, 5 min, and approximately 11 A, respectively. The absorbance, characteristic wavelength, particle size distribution, and suspension stability were, respectively, 0.586, 406 nm, 101 nm, and 28.1 mV for the colloids prepared using pure Ag and Cu wires; 0.509, 419 nm, 197.5 nm, and −6.67 mV for the 92.5:7.5 composite wires; and 1.479, 407 nm, 85.27 nm, and14.8 mV for the 72:28 composite wires. The diffraction peaks of the Ag and Cu…
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Taxonomy
TopicsLaser-Ablation Synthesis of Nanoparticles · Nanomaterials and Printing Technologies · Electrohydrodynamics and Fluid Dynamics
