Interaction of Ester Functional Groups with Aluminum Oxide Surfaces Studied Using Infrared Reflection Absorption Spectroscopy

Brand, Jeroen van den; Blajiev, Orlin; Beentjes, P. C. J.; Terryn, Herman; Wit, J.H.W. de

doi:10.1021/la049456a

Cited by 88 publications

(53 citation statements)

References 43 publications

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“…13 In the same way, silanes will interact with the Al surface by forming an interfacial bonding through the reaction with the Al-OH groups. The Al surface is always covered by a native oxide layer formed in the atmosphere; however, in order to hydrate this thin film, an appropriate pre-treatment has to be performed.…”

Section: Resultsmentioning

confidence: 99%

Study of the interaction of hydrolysed silane solutions with pre‐treated aluminium substrates

Franquet

Biesemans

Terryn

et al. 2006

Surface & Interface Analysis

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The nature of the interface between thin organosilane bis-1,2-(triethoxysilyl)ethane (BTSE) films and alkaline-cleaned aluminium surfaces has been investigated using XPS. The literature states that an oxane bond (MOSi) is formed by the reaction occurring between OH groups of both the silane and the metal surface. However, in the case of aluminium, the existence of this interfacial bonding is ambiguous. It will be demonstrated that the analysis of a reference silane, i.e. di-s-butoxyaluminoxytriethoxysilane (DBAS), having an AlOSi linkage in its chemical structure is very useful for the understanding of the presumed AlOSi bond at the interface between thin BTSE films and alkaline pre-treated aluminium surfaces. In addition, the influence of the experimental conditions on OH groups, necessary for a good interaction, in the silane solution and at the aluminium surface has been investigated by means of nuclear magnetic resonance (NMR) and infrared spectroscopic ellipsometry (IRSE) respectively.

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Section: Resultsmentioning

confidence: 99%

Study of the interaction of hydrolysed silane solutions with pre‐treated aluminium substrates

Franquet

Biesemans

Terryn

et al. 2006

Surface & Interface Analysis

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“…[9] Since most analysis techniques are not able to probe interactions at the buried interface, adhesion is often modelled by the adsorption of functional molecules representing the resin on the metal surfaces. [4,10,11] This type of measurements offers valuable information about bonding mechanisms on a molecular level. Additionally, the adsorption of various molecules on different surface oxides provides an indication of the nature of the oxide, such as its activity and its acid-base properties.…”

Section: Introductionmentioning

confidence: 99%

The role of acid‐base properties in the interactions across the oxide‐primer interface in aerospace applications

Abrahami

Hauffman

Kok³

et al. 2015

Surface & Interface Analysis

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In the transition to environmentally friendly production, chromic acid anodizing is being replaced by sulfuric acid, phosphoric acid or phosphoric-sulfuric acid anodizing. While it is known that using these acids leads to the incorporation of anions into the oxide, little is known on how they affect the nature of the oxide and how this, in turn, affects the interactions across the oxide-primer interface. In the current work, we investigate these changes in the interactions, especially the acid-base bonding, across the interface as a function of the pretreatment. To exclude contribution of surface roughness, oxides with no surface features were prepared in the aforementioned anodizing solutions by stopping the oxide growth during the formation of the barrier layer. Treatments in alkaline solution and boiling water were also included. XPS and Fourier transform infrared were first used to probe the acid-base properties of the oxide before its interactions with 4-ethylphenol (4-EP), and 4-hydroxybenzyl alcohol (4-HbA) was measured. These two molecules represent functional groups of phenolic-based thermoset resins with different acidities. Results show that both the pretreatments and the choice of molecule play a role in the interactions across the interface. While 4-HbA showed no preference, thin films of 4-EP were not detected on oxides that were prepared in phosphoric acid.

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“…The organic molecules in the top layer will form chemical bonds with the conversion layer depending on the surface property. The presence of hydroxyl group is an important aspect due to the possibility of forming bonds by donating negatively charged oxygen [24]. Rider [25] reported that adhesion and durability of applied epoxy coating was affected by boiling water treatment of aluminium.…”

Section: Introductionmentioning

confidence: 99%

Accelerated growth of oxide film on aluminium alloys under steam: Part II: Effects of alloy chemistry and steam vapour pressure on corrosion and adhesion performance

Din

Bordo

Jellesen

et al. 2015

Surface and Coatings Technology

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Interaction of Ester Functional Groups with Aluminum Oxide Surfaces Studied Using Infrared Reflection Absorption Spectroscopy

Cited by 88 publications

References 43 publications

Study of the interaction of hydrolysed silane solutions with pre‐treated aluminium substrates

Study of the interaction of hydrolysed silane solutions with pre‐treated aluminium substrates

The role of acid‐base properties in the interactions across the oxide‐primer interface in aerospace applications

Accelerated growth of oxide film on aluminium alloys under steam: Part II: Effects of alloy chemistry and steam vapour pressure on corrosion and adhesion performance

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