Plasma and ion beam enhanced chemical vapour deposition of diamond and diamond-like carbon

Tang, Yongji

27 August 2010

WC-Co cutting tools are widely used in the machining industry. The application of diamond coatings on the surfaces of the tools would prolong the cutting lifetime and improves the manufacturing efficiency. However, direct chemical vapor deposition (CVD) of diamond coatings on WC-Co suffer from severe premature adhesion failure due to interfacial graphitization induced by the binder phase Co. In this research, a combination of hydrochloric acid (HCl) and hydrogen (H2) plasma pretreatments and a novel double interlayer of carbide forming element (CFE)/Al were developed to enhance diamond nucleation and adhesion. The results showed that both the pretreatments and interlayers were effective in forming continuous and adhesive nanocrystalline diamond coatings. The method is a promising replacement of the hazardous Murakami's regent currently used in WC-Co pretreatment with a more environmental friendly approach.<p> Apart from coatings, diamond can be fabricated into other forms of nanostructures, such as nanotips. In this work, it was demonstrated that oriented diamond nanotip arrays can be fabricated by ion beam etching of as-grown CVD diamond. The orientation of diamond nanotips can be controlled by adjusting the direction of incident ion beam. This method overcomes the limits of other techniques in producing nanotip arrays on large areas with controlled orientation. Oriented diamond nano-tip arrays have been used to produce anisotropic frictional surface, which is successfully used in ultra-precision positioning systems.<p> Diamond-like carbon (DLC) has many properties comparable to diamond. In this thesis, the preparation of á-C:H thin films by end-Hall (EH) ion source and the effects of ion energy and nitrogen doping on the microstructure and mechanical properties of the as-deposited thin films were investigated. The results have demonstrated that smooth and uniform á-C:H and á-C:H:N films with large area and reasonably high hardness and Youngs modulus can be synthesized by EH ion source with a low ion energy. The EH ion beam deposition of carbon-based thin films have potential applications such as protective coatings on high capacity magnetic memory disk, for which coating uniformity and smoothness cannot be achieved by the traditional sputtering methods.

Interlayers

WC-Co cutting tools

Thin films

Chemical vapour deposition

Ion beam

Diamond

Diamond-like carbon

Nanotips

Plasma and ion beam enhanced chemical vapour deposition of diamond and diamond-like carbon

Tang, Yongji

27 August 2010

WC-Co cutting tools are widely used in the machining industry. The application of diamond coatings on the surfaces of the tools would prolong the cutting lifetime and improves the manufacturing efficiency. However, direct chemical vapor deposition (CVD) of diamond coatings on WC-Co suffer from severe premature adhesion failure due to interfacial graphitization induced by the binder phase Co. In this research, a combination of hydrochloric acid (HCl) and hydrogen (H2) plasma pretreatments and a novel double interlayer of carbide forming element (CFE)/Al were developed to enhance diamond nucleation and adhesion. The results showed that both the pretreatments and interlayers were effective in forming continuous and adhesive nanocrystalline diamond coatings. The method is a promising replacement of the hazardous Murakami's regent currently used in WC-Co pretreatment with a more environmental friendly approach.<p> Apart from coatings, diamond can be fabricated into other forms of nanostructures, such as nanotips. In this work, it was demonstrated that oriented diamond nanotip arrays can be fabricated by ion beam etching of as-grown CVD diamond. The orientation of diamond nanotips can be controlled by adjusting the direction of incident ion beam. This method overcomes the limits of other techniques in producing nanotip arrays on large areas with controlled orientation. Oriented diamond nano-tip arrays have been used to produce anisotropic frictional surface, which is successfully used in ultra-precision positioning systems.<p> Diamond-like carbon (DLC) has many properties comparable to diamond. In this thesis, the preparation of á-C:H thin films by end-Hall (EH) ion source and the effects of ion energy and nitrogen doping on the microstructure and mechanical properties of the as-deposited thin films were investigated. The results have demonstrated that smooth and uniform á-C:H and á-C:H:N films with large area and reasonably high hardness and Youngs modulus can be synthesized by EH ion source with a low ion energy. The EH ion beam deposition of carbon-based thin films have potential applications such as protective coatings on high capacity magnetic memory disk, for which coating uniformity and smoothness cannot be achieved by the traditional sputtering methods.

Interlayers

WC-Co cutting tools

Thin films

Chemical vapour deposition

Ion beam

Diamond

Diamond-like carbon

Nanotips

Spectroscopie optique de nano-objets individuels : effets d’environnement, de forme et d’orientation / Optical spectroscopy of individual nano-objects : effects of environment, shape and orientation

Pertreux, Etienne

30 October 2015

La réponse optique de nano-objets métalliques et semi-conducteurs a été étudiée par spectroscopie par modulation spatiale (SMS), une technique permettant de détecter des nano-objets individuels et d'en mesurer quantitativement la section efficace d'extinction. Dans le cadre de ce travail, nous avons systématiquement corrélé ces mesures optiques à une caractérisation bi- voire tridimensionnelle de leur morphologie, permettant une comparaison précise des mesures avec des simulations numériques. Le premier volet de cette thèse décrit une étude détaillée de l'effet de la déposition de nano-objets métalliques de forme allongée (nanobâtonnets et nanobipyramides) sur un substrat absorbant. Nos expériences montrent qu'elle conduit à un élargissement de la résonance plasmon de surface, dont l'ampleur dépend fortement de la forme et de l'encapsulation des nano objets. En combinant la SMS avec une approche pompe-sonde, nous avons pu mesurer la réponse ultrarapide de nano-bipyramides d'or individuelles, qui contient une contribution de plusieurs de leurs modes de vibration, permettant d'accéder à leur fréquence et taux d'amortissement, en s’attachant en particulier à l'effet d'une encapsulation diélectrique des bipyramides. Au cours de cette thèse, nous avons étendu l'application de la SMS à des nano-objets très allongés avec une dimension micrométrique (nanofils et nanopointes), dans le but notamment d'étudier leur réponse optique, leur interaction avec une nanoparticule d’or et d’obtenir des informations sur leur profil d'absorption, une information essentielle pour l'interprétation d'expériences d'émission électronique (effet de champ) ou ionique (tomographie de sonde atomique) / The optical response of metallic and semi-conductor nano-objects has been studied by spatial modulation spectroscopy (SMS), a technique allowing to detect single nano-objects and to quantitatively measure their extinction cross-sections. During my thesis, we have systematically correlated these optical measurements with the 2D or 3D characterization of their morphology, allowing a precise comparison of the measurements with numerical simulations. The first part of my PhD thesis describes a detailed study of the effect of the deposition of elongated nano-objects on an absorbing substrate. Our experiments show a spectral broadening of the surface plasmon resonance, whose extent highly depends on the shape and the encapsulation of the nano-objects. By combining SMS with a pump-probe approach, we were able to measure the ultrafast response of single gold nano-bipyramids. This response contains a contribution from several vibration modes, allowing extraction of their frequencies and damping times. In particular, we have addressed the effect of a dielectric encapsulation of bipyramids on their vibrational quality factors. During this thesis, we extended the use of SMS to very elongated nano-objects with a micrometric dimension (nanowires and nanotips), with the goal of studying their optical response, their interaction with a gold nanosphere and obtaining information on their absorption profile, as required to interpret electronic (field effect) or ionic (atom-probe tomography) emission experiments

Spectroscopie

Nano-optique

Plasmon de surface

Substrat absorbant

Nano-bipyramides

Nanopointes

Nanofils

Spectroscopy

Nano-optic

Surface plasmon

Absorbing substrate

Nano-bipyramids

Nanotips

Nanowires

535.8