Electrodeposition and characterization of nano-crystalline antimony telluride thin films
2012
Abstract Electrodeposition is a promising low-cost method to fabricate nanostructured thermoelectric thin films such as Sb 2 Te 3 . However, electrodeposition of crystalline Sb 2 Te 3 without the need for additional processing and with good compositional control has presented a challenge. Here we report on the electrodeposition of crystalline Sb 2 Te 3 thin films at room temperature from a tartaric–nitric acid electrolyte using a pulsed, potentiostatic process. The effects of synthesis conditions on the resulting microstructure and compositional homogeneity are investigated using x-ray diffraction, electron diffraction, electron microscopy, and energy dispersive x-ray spectroscopy. The composition of the Sb–Te films was found to be dependent on the interval between pulses, a result that is likely due to the slow kinetics associated with Sb 2 Te 3 formation at the surface. We also observed a change in texture and microstructure with varied applied pulse duration: for short pulse durations a lamellar microstructure with a {000l} texture forms, whereas for longer pulse durations a more equiaxed and randomly oriented microstructure forms. The thermal conductivities of the pulsed electrodeposited films are surprisingly low at less than 2 W/K·m and are found to systematically decrease with reduced pulse time.
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