Growth morphology study of cathodically electrodeposited Fe3O4 thin films at elevated temperatures

We investigated the electrodeposition of Fe₃O₄ thin films in the Fe³⁺-triethanolamine system by galvanostatic deposition at elevated temperatures. It was found that with a fixed current density, the concentration of Fe³⁺ ions had a significant impact on the electrodeposition rate, while the deposition temperature and time strongly affected the morphology of the Fe₃O₄ thin films. Fe₃O₄ thin films deposited in electrolyte with high Fe³⁺ concentration and at high temperature (>80 °C) exhibited a dense and uniform morphology and were composed of globular or polyhedral crystallites, while the Fe₃O₄ thin films deposited at low temperatures (<70 °C) were loose and flake-like. Based on the empirical observations, a hypothetical growth model for the electrodeposition of Fe₃O₄ at elevated temperatures was proposed.