Effect of Process Temperature and Reaction Cycle Number on Atomic Layer Deposition of TiO2 Thin Films Using TiCl4 and H2O Precursors: Correlation Between Material Properties and Process Environment



Título del documento: Effect of Process Temperature and Reaction Cycle Number on Atomic Layer Deposition of TiO2 Thin Films Using TiCl4 and H2O Precursors: Correlation Between Material Properties and Process Environment
Revista: Brazilian journal of physics
Base de datos: PERIÓDICA
Número de sistema: 000390696
ISSN: 0103-9733
Autores: 1
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1
2
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3
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1
Instituciones: 1Universidade do Vale do Paraiba, Laboratorio de Nanotecnologia e Procesos de Plasma, Sao Jose dos Campos, Sao Paulo. Brasil
2Instituto Tecnologico de Aeronautica, Laboratorio de Plasma e Processos, Sao Jose dos Campos, Sao Paulo. Brasil
3Space Research and Technology Institute, Sofía. Bulgaria
Año:
Periodo: Feb
Volumen: 46
Número: 1
Paginación: 56-69
País: Brasil
Idioma: Inglés
Tipo de documento: Artículo
Enfoque: Experimental, aplicado
Resumen en inglés The effect of process temperature and reaction cycle number on atomic layer-deposited TiO2 thin films onto Si(100) using TiCl4 and H2O precursors was investigated in order to discuss the correlation between the growth per cycle (GPC), film structure (crystallinity), and surface roughness as well as the dependence of some of these properties with gas phase environment such as HCl by-product. In this work, these correlations were studied for two conditions: (i) process temperatures in the range of 100–500 °C during 1000 reaction cycles and (ii) number of cycles in the range of 100–2000 for a fixed temperature of 250 °C. To investigate the material properties, Rutherford backscattering spectrometry (RBS), grazing incidence X-ray diffraction (GIXRD), and atomic force microscopy (AFM) techniques were used. Mass spectrometry technique was used to investigate the time evolution of gas phase species HCl and H2O during ALD process. Results indicate that the GPC does not correlate well with film crystallinity and surface roughness for the evaluated process parameters. Basically, the film crystallinity relies solely on grain growth kinetics of the material. This occurs due to higher HCl by-product content during each purge step. Furthermore, for films deposited at variable cycle number, the evolution of film thickness and elemental composition is altered from an initial amorphous structure to a near stoichiometric TiO2-x and, subsequently, becomes fully stoichiometric TiO2 at 400 cycles or above. At this cycle value, the GIXRD spectrum indicates the formation of (101) anatase orientation
Disciplinas: Física y astronomía,
Ingeniería
Palabras clave: Física de materia condensada,
Ingeniería de materiales,
Depósito por Capas Atómicas (ALD),
Películas delgadas,
Tetracloruro de titanio,
Dióxido de titanio,
Cristalinidad,
Espectrometría de masas
Keyword: Physics and astronomy,
Engineering,
Condensed matter physics,
Materials engineering,
Atomic Layer Deposition (ALD),
Thin films,
Titanium tetrachloride,
Titanium dioxide,
Crystallinity,
Mass spectrometry
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