Jean Vereecken scite author profile

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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Silane coating of metal substrates: Complementary use of electrochemical, optical and thermal analysis for the evaluation of film properties

Graeve

Vereecken

Franquet

et al. 2007

Progress in Organic Coatings

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A study of the mechanism of A.C. electrolytic graining of aluminium in hydrochloric and nitric acid

et al. 1993

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Interaction of Human Plasma Fibrinogen with Commercially Pure Titanium as Studied with Atomic Force Microscopy and X-ray Photoelectron Spectroscopy

et al. 2008

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The surface of a biomaterial interacts with the body fluid upon implantation in the human body. The biocompatibility of a material is strongly influenced by the adsorption of proteins onto the surface. Titanium is frequently used as a biomaterial for implants in orthopedics and cardiovascular devices. Understanding the biocompatibility is very important to improve implants. The surface chemistry of an implant material and its influence on the interaction with body fluid is crucial in that perspective. The main goal of this study was to investigate the conformation of human plasma fibrinogen (HPF) adsorbed on commercially pure titanium (CP Ti) on a molecular level by means of ex situ atomic force microscopy (AFM). With X-ray photoelectron spectroscopy combined with argon ion beam depth profiling, it was shown that the oxide layer present at the surface was mainly composed of TiO2, with a small percentage of Ti2O3. Ex situ AFM imaging showed the conformation of HPF on CP Ti. Single molecules and aggregates of fibrinogen were observed. The trinodular structure of single HPF molecules (two spherical D domains at the distal ends of the extended molecule and the central spherical E domain) adsorbed onto CP Ti was visualized. Aggregate formation through the connection of the D domains of the HPF molecules was observed on CP Ti. The alphaC domains of HPF were not visible on CP Ti. The ex situ AFM images indicated conformational changes of HPF upon adsorption onto CP Ti. The conformation of the adsorbed HPF molecules was different on mica and titanium. The difference in wettability between both substrates caused a larger spread of the protein on the CP Ti surface and thus resulted in a larger perturbation to the native structure of HPF as compared to mica.

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Jean Vereecken

Electrochemical impedance spectroscopy in the presence of non-linear distortions and non-stationary behaviour

Effect of bath concentration and curing time on the structure of non-functional thin organosilane layers on aluminium

IRSE study on effect of thermal curing on the chemistry and thickness of organosilane films coated on aluminium

Determination of the thickness of thin silane films on aluminium surfaces by means of spectroscopic ellipsometry

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

Silane coating of metal substrates: Complementary use of electrochemical, optical and thermal analysis for the evaluation of film properties

A study of the mechanism of A.C. electrolytic graining of aluminium in hydrochloric and nitric acid

Interaction of Human Plasma Fibrinogen with Commercially Pure Titanium as Studied with Atomic Force Microscopy and X-ray Photoelectron Spectroscopy

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