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Comparison of chemical stability and corrosion resistance of group IV metal oxide films formed by thermal and plasma-enhanced atomic layer deposition
The wide applications of ultrathin group IV metal oxide films (TiO(2), ZrO(2) and HfO(2)) probably expose materials to potentially reactive etchants and solvents, appealing for extraordinary chemical stability and corrosion resistance property. In this paper, TiO(2) ultrathin films were deposited on...
Autores principales: | , , , , , , , |
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Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
Nature Publishing Group UK
2019
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Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6639315/ https://www.ncbi.nlm.nih.gov/pubmed/31320728 http://dx.doi.org/10.1038/s41598-019-47049-z |
Sumario: | The wide applications of ultrathin group IV metal oxide films (TiO(2), ZrO(2) and HfO(2)) probably expose materials to potentially reactive etchants and solvents, appealing for extraordinary chemical stability and corrosion resistance property. In this paper, TiO(2) ultrathin films were deposited on Si at 200 °C while ZrO(2) and HfO(2) were grown at 250 °C to fit their growth temperature window, by thermal atomic layer deposition (TALD) and plasma-enhanced ALD (PEALD). A variety of chemical liquid media including 1 mol/L H(2)SO(4), 1 mol/L HCl, 1 mol/L KOH, 1 mol/L KCl, and 18 MΩ deionized water were used to test and compare chemical stability of all these as-deposited group IV metal oxides thin films, as well as post-annealed samples at various temperatures. Among these metal oxides, TALD/PEALD HfO(2) ultrathin films exhibit the best chemical stability and anti-corrosion property without any change in thickness after long time immersion into acidic, alkaline and neutral solutions. As-deposited TALD ZrO(2) ultrathin films have slow etch rate of 1.06 nm/day in 1 mol/L HCl, however other PEALD ZrO(2) ultrathin films and annealed TALD ones show better anti-acid stability, indicating the role of introduction of plasma O(2) in PEALD and post-thermal treatment. As-deposited TiO(2) ultrathin films by TALD and PEALD are found to be etched slowly in acidic solutions, but the PEALD can decrease the etching rate of TiO(2) by ~41%. After post-annealing, TiO(2) ultrathin films have satisfactory corrosion resistance, which is ascribed to the crystallization transition from amorphous to anatase phase and the formation of 5% Si-doped TiO(2) ultrathin layers on sample surfaces, i.e. Ti-silicate. ZrO(2), and TiO(2) ultrathin films show excellent corrosion endurance property in basic and neutral solutions. Simultaneously, 304 stainless steel coated with PEALD-HfO(2) is found to have a lower corrosion rate than that with TALD-HfO(2) by means of electrochemical measurement. The pre-treatment of plasma H(2) to 304 stainless steel can effectively reduce interfacial impurities and porosity of overlayers with significantly enhanced corrosion endurance. Above all, the chemical stability and anti-corrosion properties of IV group metal oxide coatings can be improved by using PEALD technique, post-annealing process and plasma H(2) pre-treatment to substrates. |
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