Enhanced magnetism in electrodeposited-based CoNi composites containing high percentage of micron hard-magnetic particles

CoNi–barium ferrite magnetic composites with a high percentage of micrometric particles have been prepared by electrodeposition over silicon-based substrates. A cationic surfactant synthesized in our laboratory (4-ethylazobenzene-4′-(oxyethyl)trimethylammonium iodide-AZTMAI) has been used in order to favour the inclusion of magnetic particles into the alloy deposit. This surfactant reduces during cobalt–nickel electrodeposition and it is not embedded into the deposit. Moderate surfactant concentrations (1–5 g l−1), room temperature, the application of a magnetic field during the electrodeposition and a double-pulse technique favour the maximum incorporation of barium ferrite up to around 30–35 wt%. Magnetic properties of composites prepared tend to hard-magnetic ones, with different magnetization curves when silicon/seed-layer/composite samples are oriented parallel or perpendicularly to the applied magnetic field. Constricted-type magnetization curves were obtained.