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Colloidal Assembly of Plasmonic Superstructures: New Approaches for SensingWang, Ruosong 16 May 2022 (has links)
Noble metal nanoparticles have attracted the attentions of many researchers because of unique plasmonic properties since their discovery and successful preparation. Nanocluster formed by the assembly of noble metal nanoparticles can exhibit plasmonic characteristics beyond those of individual nanoparticles, which can be tuned, to a large extent, by adjusting the size, shape, chemical composition, and arrangement of individual nanoparticles. Usually nanocluster with special ordered structures is called as superstructure, which can be designed for different purposes through various methods. Colloidal assembly as a cost-efficient approach can be widely used for fabrication of plasmonic superstructure in solution media. As an introduction of background, the developments of plasmonic nanoparticles and nanoclusters have been discussed in the aspects of their LSPR properties, surface modification for colloidal assembly, and sensing applications. Both colorimetry and SERS detection based on plasmonic assemblies have been presented as effective sensing methods, which are also the motivations for the main experiments in this thesis.
As a proof-of-motivation, the different kinds of thiol-terminated PEG assisted hybrid gold nanoparticles have been applied for the protein colorimetric detections based on the specific interaction between heparin and proteins with different surface affinities. In addition, PEG-assisted core/satellite superstructures with various polymer thickness as SERS platform have been demonstrated for trace sensing of specific target molecules in solution. Especially, the method to differentiate between the radiative and non-radiative contributions of plasmonic superstructure has been proposed using diffuse reflectance spectroscopy, which provides a favorable selection and design of best candidates for specific application scenarios. Finally, the concept of NIR-II SERS using biological transparency window has been introduced including the fundamental requirements, which proposed a future experiment to fabricate suitable superstructures for potential biomedical applications with high penetration depth at low laser powers.
Generally speaking, the central focus of this thesis is the effect of polymer modification on the structures and properties of plasmonic superstructure and its sensing application. The main research efforts are divided into three parts: (I) investigate the topological effect of polymer structure parameters on plasmonic properties for colorimetric analytics; (II) investigate the impact of interparticle spacing within the assemblies and polymer dimensions on the SERS activity; (III) investigate the plasmonic properties tailoring of superstructures as well as the contribution of scattering (radiative) and absorption (non-radiative), i.e. light-to-heat conversion, within the ensemble optical response.
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Génération de surface nanostructurées par le contrôle des interactions aux interfaces / Versatile nanostructured surfaces generated by controlling interfacial interactionsSouharce, Grégoire 17 July 2012 (has links)
La génération de surfaces présentant des nanostructurations de surface variées et modulables est l’objectif principal de ce travail. L’auto-assemblage de copolymères à bloc ou de nanoparticules d’or a été privilégié, et nécessite pour se faire de moduler finement les interactions aux interfaces substrat/ matériaux déposés. Dans une première partie, un dispositif expérimental de greffage de silane alkyle en voie vapeur est décrit. Cette technique de greffage permet d’aboutir à des surfaces fonctionnalisées soit de façon homogène, soit de façon graduelle et ce, avec un ou deux silanes (substrat respectivement mono ou bi-composant). La robustesse, la simplicité et la flexibilité de notre procédé ont été démontrés par des caractérisations physico-chimique (mesure des propriétés de mouillabilité), chimique (spectroscopie de photoélectrons X) ainsi que par analyse topographique (microscopie à force atomique). Dans une deuxième partie, l’influence des interactions aux interfaces substrat / film sur l’auto-assemblage de copolymères à bloc PS-b-PMMA a été mise en évidence par AFM. A partir des substrats de silicium homogènes en énergie de surface, il a été possible de moduler la nanostructuration sur différents échantillons et à partir des surfaces fonctionnalisées graduellement, cette variation de nanostructuration a pu être obtenue sur un même substrat. Par l’utilisation de copolymère à bloc PS-b-PI, il est par ailleurs possible de générer des films nanostructurés sans préfonctionnalisation du substrat, sans recuit et ce quelle que soit l’épaisseur du film. Dans une troisième partie, l’influence des interactions aux interfaces sur l’assemblage capillaire/convectif dirigé de nanoparticules d’or a été démontré par microscopie à champ sombre. La nature chimique et la densité de greffage des silanes ainsi que la dimension des échantillons ont été modulées pour mettre en évidence le rôle de ces paramètres sur l’assemblage de ces particules. Cette étude montre que les interactions aux interfaces contrôlent l’assemblage des entités chimiques organiques et inorganiques et donc la nanostructuration de surface qui en résulte. / The purpose of this work is to develop a methodology based on the control of interactions at substrate/deposited material interfaces in order to achieve well-defined structures at the nanoscale (nanostructuration). In particular, silane molecules were grafted onto planar substrates to adjust the physico-chemical interactions in order to consequently control block copolymers / gold nanoparticles self-assemblies. The first part describes the experimental set-up developed to graft alkyl silanes through vapor phase strategy. The modification can be finely tuned such that homogeneously or gradually functionalized surfaces with either one or two silanes (or- or two-component substrate, respectively) are obtained. The versatility and simplicity of our process were demonstrated by wettability measurements, X-ray photoelectron spectroscopy and microscopic analysis (AFM) performed on these different surfaces. The second part points out the influence of grafting density and polarity on block copolymers self-assembly. PS-b-PMMA films were first used. With using homogeneously-modified substrates, it has been demonstrated that block copolymers self-assembly depends on substrate surface chemistry, and different cases (dewetting, wetting, parallel or perpendicular orientation of nanodomains) were achieved as a function of the grafting density of silanes on the substrate. Using gradually-modified surface, these different nanostructures were obtained on one unique sample. Moreover, by using appropriate deposition conditions with another block copolymer (PS-b-PI), well-oriented nanostructured films were obtained without pre-functionalization or annealing, regardless of film thickness. In the third part influence of surface chemistry on gold nanoparticles deposited through capillary/convective assembly is investigated and characterized by dark field microscopy. The careful selection of silane in conjunction with appropriate grafting density are adjusted in order to emphasize the impact of these parameters on the assembly process and therefore on the surface nanostructures. This study demonstrates that the control of interfacial interactions dictates the self-assembly of organic or inorganic materials deposited on a planar substrate.
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