Quantitative chemical composition of thin films with infrared spectroscopic ellipsometry: application to hydrated oxide films on aluminium

Gils, Sake Van; Melendres, C. A.; Terryn, Herman

doi:10.1002/sia.1546

Cited by 36 publications

(28 citation statements)

References 24 publications

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“…When the aluminum substrate is taken out from the boiling deionized water, the aluminum surface has high surface‐free energy and, hence, the adventitious hydrocarbon is adsorbed on the surface. By hydration, the aluminum surface becomes porous as a result of a formation of pseudoboehmite,6, 14–15 and,, hence, more surface area leads to the reduction of the adventitious carbon concentration compared with the degreased substrate. Since OC (BE = 532.0–532.1 eV) and OC (BE = 533.2–533.6 eV) components can also be observed in the O1s peaks, the cross reference of C1s and O1s peak fits allow to quantify aluminum oxide (O 2− ) and hydroxide (OH − ) components of O1s.…”

Section: Resultsmentioning

confidence: 99%

The characterization of the interfacial interaction between polymeric methylene diphenyl diisocyanate and aluminum: a ToF‐SIMS and XPS study

Shimizu

Phanopoulos

Loenders

et al. 2010

Surface & Interface Analysis

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Time of flight secondary ion mass spectrometry (ToF-SIMS) and X-ray photoelectron spectroscopy (XPS) have been employed to study the interfacial interaction between polymeric methylene diphenyl diisocyanate (PMDI) and aluminium produced by the deposition of a thin PMDI layer on the aluminium, in order to improve adhesion and/or abhesion performance.When the PMDI concentration increases, the intensity ratio fragments indicative of the reaction product with water (m/z = 106 u: C 7 H 8 N + ) to that of isocyanate group (m/z = 132 u:C 8 H 6 NO + ) decreases. A very thin MDI layer on oxidised aluminium samples exhibits lower 106/132 ratio than degreased samples as a result of less hydroxide/hydroxyl spices on the surface. This suggests that water reactions occur both at the surface of PMDI and at the PMDI/aluminium interface. The variation of the PMDI chemistry has also been studied by exposing PMDI treated samples to the air for various periods of time (a few hours to 14 days), in order to assess the reaction of the PMDI surface and PMDI/aluminium interface. At the interface, the yield of reaction with water is limited because of the finite amount of hydroxyl groups on the aluminium surface, and the water reaction is completed in a short period of time.However, the PMDI surface continues to react with water from the atmospheric. This methodology was also used to establish the presence of specific interactions at the PMDI/aluminium interface, and a fragment indicative of covalent bond formation between PMDI and aluminium (AlCHNO 3 -) is observed at the interface.2

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Section: Resultsmentioning

confidence: 99%

The characterization of the interfacial interaction between polymeric methylene diphenyl diisocyanate and aluminum: a ToF‐SIMS and XPS study

Shimizu

Phanopoulos

Loenders

et al. 2010

Surface & Interface Analysis

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show abstract

“…The second peak, showing the most important changes as a function of the storage and pretreatment conditions, is due to pseudoboehmite (AlOOH). 12 As expected, an alkaline pretreatment enhances the dissolution of the oxide layer and allows the precipitation of hydroxyl groups at the remaining oxide according to the model described by Vedder and Vermilyea. 13 Another support for the presence of pseudoboehmite is the asymmetric peak at around 3500 cm 1 .…”

Section: Methodsmentioning

confidence: 87%

“…13 Another support for the presence of pseudoboehmite is the asymmetric peak at around 3500 cm 1 . Indeed, this peak can be deconvoluted into two components: one for the OH stretching of water (near 3500 cm 1 ) and one for the OH stretching of AlOOH (near 3300 cm 1 according to Van Gils et al 12 ). However, the peak at about 1100 cm 1 is relatively broad meaning that other absorptions may be present.…”

Section: Methodsmentioning

confidence: 99%

Study of the effect of different aluminium surface pretreatments on the deposition of thin non‐functional silane coatings

Franquet

Terryn

Vereecken

2004

Surface & Interface Analysis

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This paper focuses on the effect of aluminium surface pretreatment on the formation of thin non-functional silane films. Three pretreatments were used to prepare the aluminium surface before the deposition of silane films. The generated surfaces were characterized before and after the silane film deposition by infrared spectroscopic ellipsometry (IRSE) and by the combination of SEM, AES and spectroscopic ellipsometry (SE), respectively. It is demonstrated that the amounts of hydroxyl groups at the aluminium surface provided by the different pretreatments strongly influence the initiation and the formation of the silane films.

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“…2. The refractive indices were based on literature values [1,5]. ψ mod and ∆ mod were computed by the equations of Azzam and Bashara [6] for polarised light reflected from a layered structure of different materials of uniform thickness positioned on each other.…”

Section: Resultsmentioning

confidence: 99%

“…Most of the available work in this subject is based on ex-situ spectroscopic techniques [1][2][3]. The surfaces characterised ex situ may be quite different from the actual surface during reactions between the organic molecules and the oxide covered aluminium surface in a solution.…”

Section: Introductionmentioning

confidence: 99%

In situ ellipsometric and electrochemical characterisation of oxide formed on aluminium in acetate buffer

Giskeødegård¹,

Blajiev

Hubin

et al. 2005

phys. stat. sol. (c)

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Fig. 1 The electrochemical cell with optical openings (circular red holders at the surface). The sample is situated between the openings, exposed to the solution.In situ ellipsometric and electrochemical characterisation of oxide formed on aluminium in acetate buffer The paper presents methodology for characterisation of oxide properties on pure aluminium in aqueous solution by use of visual light ellipsometry (VISSE) and electrochemical impedance spectroscopy (EIS) under controlled environmental conditions. Control of the electrode potential and solution pH, chemistry and temperature gives well-defined and reproducible oxide properties. Monitoring the current density during transition between different applied potentials gives direct information about Faradaic changes in the oxide properties, while the ellipsometer monitors the changes in the actual thickness and refractive index of the film. EIS reveals in turn information about the charge transfer processes and adsorption at steadystate conditions. Physical significance of the parameters calculated from the experimental data depends on the accuracy of the mathematical models used. Preliminary results are presented for acetate adsorption and oxide film growth and dissolution kinetics in an aqueous environment.

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Quantitative chemical composition of thin films with infrared spectroscopic ellipsometry: application to hydrated oxide films on aluminium

Cited by 36 publications

References 24 publications

The characterization of the interfacial interaction between polymeric methylene diphenyl diisocyanate and aluminum: a ToF‐SIMS and XPS study

The characterization of the interfacial interaction between polymeric methylene diphenyl diisocyanate and aluminum: a ToF‐SIMS and XPS study

Study of the effect of different aluminium surface pretreatments on the deposition of thin non‐functional silane coatings

In situ ellipsometric and electrochemical characterisation of oxide formed on aluminium in acetate buffer

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