Ni nanowires (NWs) of different lengths were fabricated by pulsed potentiostatic deposition within pores of polycarbonate membranes. After template dissolution, substrates underwent sequential Spray-ILGAR® depositions of thin indium sulphide films. The effect of deposition temperature was also investigated. For low number of deposition cycles, results showed complete and uniform covering of metal over the entire length of NWs, with formation of Ni - In2S3 core-shell structures. However, with increasing number of deposition cycles films became uneven and crusty, especially at higher temperatures, owing to the simultaneous formation of nickel sulfide. This drawback was almost eliminated doubling the duration of the spray step.
Piazza, S., Genduso, G., Inguanta, R., Sunseri, C., LuxSteiner, M., Fischer, C.H. (2013). Nickel-Indium Sulphide Core-Shell Nonostructures Obtained by Spray-ILGAR Deposition. In J.J.K. Sauro Pierucci (a cura di), CHEMICAL ENGINEERING TRANSACTIONS (pp. 2239-2244). AIDIC [10.3303/CET1332374].
Nickel-Indium Sulphide Core-Shell Nonostructures Obtained by Spray-ILGAR Deposition
PIAZZA, Salvatore;INGUANTA, Rosalinda;SUNSERI, Carmelo;
2013-01-01
Abstract
Ni nanowires (NWs) of different lengths were fabricated by pulsed potentiostatic deposition within pores of polycarbonate membranes. After template dissolution, substrates underwent sequential Spray-ILGAR® depositions of thin indium sulphide films. The effect of deposition temperature was also investigated. For low number of deposition cycles, results showed complete and uniform covering of metal over the entire length of NWs, with formation of Ni - In2S3 core-shell structures. However, with increasing number of deposition cycles films became uneven and crusty, especially at higher temperatures, owing to the simultaneous formation of nickel sulfide. This drawback was almost eliminated doubling the duration of the spray step.File | Dimensione | Formato | |
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