Étude des propriétés plasmoniques des réseaux de nanotrous

Couture, Maxime

06 1900

Les réseaux de nanotrous sont des structures plasmoniques ayant un énorme potentiel en tant que transducteurs pour la conception de biocapteurs. De telles structures sont prometteuses pour l’élaboration de biocapteurs capable d’effectuer du criblage à haut débit. L’intérêt de travailler avec des réseaux de nanotrous est dû à la simplicité d’excitation des polaritons de plasmons de surface en transmission directe, à la sensibilité et à la facilité de fabrication de ces senseurs. L’architecture de tels réseaux métalliques permet la conception de nanostructures ayant de multiples propriétés plasmoniques. L’intensité, la signature spectrale et la sensibilité du signal plasmonique sont grandement affectées par l’aspect physique du réseau de nanotrous. L’optimisation du signal plasmonique nécessite ainsi un ajustement du diamètre des trous, de la périodicité et de la composition métallique du réseau. L'agencement de l'ensemble de ces paramètres permet d'identifier une structure optimale possédant une périodicité de 1000 nm, un diamètre des nanotrous de 600-650 nm et un film métallique ayant une épaisseur de 125 nm d'or. Ce type de transducteur a une sensibilité en solution de 500-600 nm/RIU pour des bandes plasmoniques situées entre 600-700 nm. L'intérêt de travailler avec cette structure est la possibilité d'exciter les plasmons de polaritons de surface (SPPs) selon deux modes d'excitation : en transmission exaltée (EOT) ou en réflexion totale interne par résonance des plasmons de surface (SPR). Une comparaison entre les propriétés plasmoniques des senseurs selon les modes d'excitation permet de déterminer expérimentalement que le couplage de la lumière avec les ondes de SPP de Bloch (BW-SPPs) en transmission directe résulte en un champ électromagnétique davantage propagatif que localisé. D'un point de vue analytique, la biodétection de l'IgG en SPR est 6 fois plus sensible par rapport au mode EOT pour une même structure. Une étude du signal plasmonique associé au BW-SPP pour un certain mode de diffraction démontre que la distance de pénétration de ces structures en EOT est d'environ 140 nm. La limite de détection de l'IgG humain pour un réseau de nanotrous de 1000 nm de périodicité est d'environ 50 nM en EOT. Ce mémoire démontre la viabilité des réseaux de nanotrous pour effectuer de la biodétection par criblage à haut débit lors de prochaines recherches. L'investigation de l'effet de l'angle d'excitation en transmission exaltée par rapport au signal plasmonique associé au mode (1,0) d'un réseau de nanotrous de 820 nm d'or démontre que la sensibilité en solution n'est pas proportionnelle à la sensibilité en surface du senseur. En fait, une optimisation de l'angle d'incidence pour le mode (1,0) de diffraction des BW-SPP permet d'amplifier la sensibilité en surface du senseur jusqu'à 3-fois pour un angle de 13,3°. Ce mémoire démontre ainsi la nécessité d'optimiser l'angle d'excitation et les propriétés physiques du senseur afin de développer un transducteur de grande sensibilité basé sur l'excitation en transmission de réseaux de nanotrous. / This research aims at developing a multiplexed biosensor for protein detection based on the nanohole array technology. Gold nanohole arrays exhibit distinct plasmonics properties depending on the excitation mode of the surface plasmon polaritons (SPPs). The interest of working with nanohole arrays is related to their high sensitivity, ease of fabrication and simple setup of excitation in transmission. The architecture of nanohole arrays leads to a nanostructure having multiple plasmonics properties. The intensity, the spectral signature and the sensitivity of the plasmonic signal were highly affected by the shape of the nanohole arrays. Varying the diameter of the holes, the periodicity and the metallic composition of the array were used to optimize the plasmonic signal. The optimal structure was found to have a periodicity of 1000 nm, a diameter of 600-650 nm and a metallic film with a thickness of 125 nm of gold. Such a transducer exhibits a bulk refractive index sensitivity of 500-600 nm/RIU for plasmonic bands absorbing around 600-700 nm. Surface plasmon resonance (SPR) in the Kretschmann configuration and enhanced optical transmission (EOT) mode were compared using large gold nanohole arrays (1000 nm periodicity, 600 nm diameter and 125 nm depth) in order to assess their relative analytical performance. Biodetection of IgG was found to be 6 times more sensitive with SPR in the Kretschmann configuration than in EOT mode for the same structure. The decay length of the electromagnetic field in EOT mode was determined experimentally to be around 140 nm with a layer-by-layer polyelectrolyte deposition. This results suggests that the plasmonic properties of EOT for nanohole arrays is much more associated to a Bloch wave SPPs mode rather than a localized SPR. Variation of the incident angle of excitation of the BW-SPPs in transmission leads to a higher surface sensitivity for the (1,0) diffraction mode for gold nanohole arrays of 820 nm periodicity. Optimization of the physical properties and the excitation angle of the nanohole arrays is essential in order to develop a transducer having a potential towards multiplexed biosensors.

Réseaux de nanotrou

Nanohole arrays

Transmission exaltée

Surface plasmon resonance

Transducteur

Enhanced optical transmission

Résonance des plasmons de surface

Transducer

Surface plasmon hybridization in the strong coupling regime in gain structures / Hybridation des plasmons de surface en régime de couplage fort dans des structures à gain

Castanié, Aurore

04 October 2013

Les plasmons de surface sont des modes non-radiatifs qui vivent à l'interface d'un diélectrique et d'un métal. Ils peuvent confiner la lumière à des échelles sub-longueur d'onde. Néanmoins, leur propagation reste limitée par les pertes inhérentes au métal qui entraînent une absorption rapide du mode. L'objet de cette thèse est l'étude du couplage des plasmons de surface dans des structures planes métallo-diélectriques. L'obtention des propriétés des différents modes nécessite le prolongement des solutions dans le plan complexe définissant la constante de propagation. La méthode mise en œuvre consiste à déterminer les pôles de la matrice de diffusion en utilisant les intégrales de Cauchy. Une première solution pour résoudre le problème de propagation des plasmons de surface consiste à coupler ces modes entre eux. Dans un milieu symétrique, lorsque l'épaisseur d'un film métallique devient suffisamment faible, le couplage entre les modes plasmons existants sur chaque surface devient possible. L'un des deux modes couplés ainsi créé, dit plasmon longue portée, a une longueur de propagation supérieure à celle du plasmon de surface usuel tandis que l'autre, dit plasmon à courte portée, se propage moins. Nous présentons une configuration permettant l'excitation du mode longue portée sans le mode courte portée grâce à une couche métallique déposée sur un substrat infiniment conducteur. Cette excitation peut alors être effectuée dans l'air et permettre des applications comme la détection et la caractérisation de molécules. Ensuite, nous présentons le couplage entre deux guides d'ondes diélectriques, et plus particulièrement la théorie des modes couplés, étendue au cas de la polarisation transverse magnétique. Nous considérons aussi le cas de la PT symétrie. La dernière partie de ce mémoire présente la démonstration du régime de couplage fort entre un plasmon de surface et un mode guidé. Nous mettons alors en évidence une augmentation de la longueur de propagation pour le mode hybride plasmon dont le confinement reste celui d'un mode de surface. Un gain linéaire est ensuite ajouté dans les différentes couches de la structure pour en étudier l'effet. L'ajout de gain dans la couche intermédiaire entre les deux modes couplés a pour conséquence l'exaltation de la longueur de propagation des modes et plus particulièrement du mode hybride plasmon qui peut alors se propager au-delà du millimètre. / Surface plasmon polaritons are non radiative modes which exist at the interface between a dielectric and a metal. They can confine light at sub-wavelength scales. However, their propagation is restricted by the intrinsic losses of the metal which imply a rapid absorption of the mode. The aim of this thesis is the study of the coupling of surface plasmons in metallo-dielectric planar structures. Obtaining the properties of the modes implies the extension of the solutions to the complex plane of propagation constants. The method used consists in determining the poles of the scattering matrix by means of Cauchy's integrals. The first solution to solve the problem of propagation of the surface plasmons consists in coupling these modes to one another. In a symmetric medium, when the thickness of the metallic film becomes thin enough, the coupling between the plasmon modes which exist on each side becomes possible. One of the coupled modes which is created, the so-called long range surface plasmon, has a bigger propagation length than the usual plasmon whereas the other coupled mode, named short range surface plasmon, has a smaller propagation length. We present a configuration which allows the excitation of the long range surface plasmon without the short range mode with a metallic layer deposited on a perfect electric conductor substrate. This excitation can be done in air and allows applications, such as the detection and the characterisation of molecules. Then, we present the coupling between dielectric waveguides, and, in particular, the coupled-mode theory in the case of the transverse magnetic polarisation. We consider also the case of PT symmetric structure. The last part of this work presents the demonstration of the strong coupling regime between a surface plasmon and a guided mode. We demonstrate an increase of the propagation length of the hybrid surface plasmon, which still has the confinement of a surface mode. A linear gain is added in the different layers of the structure. When the gain is added in the layer between both coupled modes allows an enhancement of the propagation lengths of the modes, and more precisely of the hybrid surface plasmon mode, which can propagate at the millimeter scale.

Plasmon de surface

Guide d'onde

Couplage fort

Gain

Matrice de diffusion

Analyse complexe

Surface plasmon

Waveguide

Strong coupling

Gain

Scattering matrix

Complex analysis

Plateforme Nano Bio Intelligente : membrane biomimétique pour la reconstitution d'une cascade calmoduline dépendante / Intelligent Nano Bio Platform : Biomimetic membrane for the reconstitution of a Calmodulin dependent cascade

Veneziano, Rémi

25 November 2013

L'objectif principal de ces travaux de thèse est de développer des modèles membranaires biomimétiques pour la reconstitution et l'étude d'interactions protéine/membrane. Dans ce but, deux approches sont adoptées : l'une mettant en œuvre une plateforme basée sur des nanoparticules de silice/Au recouvertes de lipides et l'autre comprenant la formation de bicouches lipidiques découplées d'un support solide d'or. Dans la première approche, nous avons synthétisé des particules de silice de taille nanométrique contenant des grains d'or inclus dans la matrice silicique. Ces nanoparticules sont ensuite recouvertes par différents phospholipides. Les propriétés plasmoniques acquises grâce aux grains d'or sont caractérisées puis utilisées pour suivre l'interaction avec les lipides et/ou les protéines. Le suivi de ces interactions est également visualisé par analyse de la mobilité électrophorétique des particules. La deuxième stratégie développée, consiste à assembler un système membranaire sur une surface solide d'or. Dans un premier temps, une couche de calmoduline est liée à la surface de manière stable. Dans un deuxième temps, une bicouche est formée au-dessus de la couche de calmoduline par deux méthodes. La première méthode consiste à ancrer la bicouche directement sur la couche de protéine par un mécanisme faisant intervenir des lipides chélateurs. Alors que dans la deuxième méthode les lipides sont liés à la surface et découplés grâce à l'utilisation d'une surface d'or modifiée par de la cystéamine et à des lipides fonctionnalisés. L'ancrage est assuré par des groupements succinimidyl et le découplage par des polymères de polyéthylène glycol porté sur un même lipide. Dans les deux stratégies, un réservoir sub-membranaire est créé entre la bicouche étanche et le support. Le suivi des constructions moléculaires est réalisé par résonance plasmonique de surface et analyse du retour de fluorescence. De plus le système est implémenté par des électrodes afin d'étudier l'effet d'application de potentiel sur la bicouche. Après caractérisation, le modèle membranaire est validé par la reconstitution de la translocation de la toxine CyaA de Bordetella pertussis. Cette protéine dispose en effet d'un mécanisme d'internalisation singulier qui permet d'explorer tout le potentiel de notre modèle membranaire. / The main objective of this work is to develop biomimetic membrane models for the reconstitution and study of protein/membrane interaction. Two devices were designed: one operate a nanometric platform composed of phospholipids coated lipid silica/Au nanoparticles, while the other including tethered lipid bilayer reconstitution on a gold surface. The first approach needs the synthesis of nanometer sized gold/silica particles and that are subsequently coated with different phospholipids. The plasmonic properties provided by gold seeds are characterized and they are of utility to follow the interaction between lipids and/or proteins at the surface. Following of these interactions was also realized with electrophoretic mobility analysis. The second biomimetic device involves a membrane assembly on a gold surface. In a first time, a calmodulin layer is bound on the surface. In a second time, a lipid bilayer is assembled above the calmodulin layer by two approaches. In the first approach the lipid bilayer is anchored on the protein layer with chelators lipid and His-Tag bearing by the proteins. While, in the second approach, lipids are bound on the surface and tethered with the use of a cysteamin modified gold surface and functionalized lipids. The anchorage is realized by succinimidyl group and the tethering by polyethylene glycol group wearing by one kind of lipid. A sub-membrane reservoir is created under the lipid bilayer. The biomimetic model formation was followed by plasmonic resonance and fluorescence recovery after photobleaching. After their characterization the tethered model is validated by reconstitution of a particular mechanism: the CyaA toxin from Bordetella pertussis translocation.

Membrane Biomimétique

Cascade calmoduline dépendante

Resonance plasmonique de surface

Toxine CyaA

Nanoparticules de silice

Adénylate cyclase

Biomimetic Membrane

Calmodulin dependent cascade

Surface plasmon resonance

CyaA Toxin

Silica nanoparticles

Adenylate cyclase

Purificação e caracterização do fragmento Fab anti-digoxina obtido pela técnica de phage display. / Purification and characterization of anti-digoxin Fab fragments obtained by phage display technology.

Inocencio, André Luís

23 March 2016

A digoxina é um dos medicamentos indicados para o tratamento de falência cardíaca. Possui janela terapêutica estreita, sendo responsável por casos de intoxicação. O único antídoto disponível para a desintoxicação é o anticorpo policlonal DigiFab®, no formato Fab. O seu uso é eficaz, porém de custo elevado. Clones bacterianos produtores de fragmento Fab monoclonal anti-digoxina foram obtidos previamente pelo nosso grupo, pela técnica de phage display. Neste trabalho as variantes Fab dos 4 clones foram expressas em E.coli para estabelecer o método para a purificação. Com a obtenção dos fragmentos Fab purificados, foi caracterizada a sua afinidade ao antígeno e especificidade, em ensaios de inibição por digoxina, digitoxina, digoxigenina e ouabaina. Os parâmetros cinéticos da ligação dos fragmentos Fab dos 4 clones e do DigiFab® foram avaliados por SPR. Nas condições experimentais, não foram verificadas diferenças significativas entre os produtos dos 4 clones e o comercial, demonstrando o potencial dos fragmentos Fab monoclonais obtidos como antídoto à digoxina. / Digoxin is a medication indicated for heart failure treatment. Its therapeutic window is narrow, being responsible for intoxication cases. The only antidote available for the detoxification is a polyclonal antibody - DigiFab® in Fab format. Its use is effective, but costly. Bacterial clones producing anti-digoxin monoclonal Fab fragments were previously obtained by our group using phage display technology. In this work the Fab variants of the 4 clones were expressed in E.coli to establish the purification method. The purified fragments were characterized regarding the affinity to the antigen and the specificity through inhibition assays with digoxin, digitoxin, digoxigenin and ouabain. The binding kinetic parameters of Fab fragments of the 4 clones and the commercial product to Dig-BSA conjugate were assessed by SPR. Under the experimental conditions no significant differences were observed among the 4 clones and the commercial product, demonstrating the potential of monoclonal Fab fragments as an antidote to digoxin.

Phage display

Chromatography

Cromatografia

Digitálicos

Digitalics

Digoxin

Digoxina

Fragmento Fab monoclonal

Monoclonal Fab fragment

Phage display

Ressonância plasmônica de superfície

Surface plasmon resonance

FGF2 de 18kDa e de 22,5kDa: sinalização molecular parácrina e funções biológias / FGF2 species of 18 and 22.5 kDa: paracrine molecular signaling and biological functions

Murata, Gilson Masahiro

05 May 2010

FGF2 (Fibroblast Growth Factor 2), o fundador da família FGF, tem funções regulatórias na mitogênese, diferenciação, morfogênese e reparo tecidual. Diversas espécies moleculares de FGF2 compartilham uma seqüência C-terminal comum de 155 aminoácidos, pois se originam de diferentes sítios de iniciação de leitura de um único mRNA. O menor, o FGF2-18kDa, é liberado extracelularmente para se ligar a receptores específicos (FGFRs) para disparar as funções parácrinas e autócrinas pelas quais este fator é conhecido. Por outro lado, as espécies maiores (FGF2-21, 22, 22,5 e 34kDa) são intracelulares se ligam a parceiros moleculares desconhecidos para exercer funções intrácrinas ainda indefinidas. O objetivo desta tese foi produzir espécies recombinantes do FGF2-18 e FGF2-22,5, na forma de proteínas de fusão, para analisar funções biológicas e mecanismos de sinalização. Nas células malignas Y1 de camundongo, os recombinantes de FGF2-18kDa (FGF2-18, His-FGF2-18 e His-FGF2-18-ProA) dispararam uma resposta antagônica estimulando as vias de sinalização mitogênica, mas bloqueando o ciclo celular. Nos fibroblastos não tumorigênicos Balb3T3, estes mesmos recombinantes de FGF2-18kDa dispararam apenas a resposta mitogênica clássica. Todos os efeitos biológicos destes recombinantes de FGF2-18kDa foram bloqueados pelo inibidor específico da proteína quinase de tirosina dos FGFRs, PD173074, demonstrando que são respostas intermediadas pelos FGFRs. Portanto, os domínios estruturais adicionados aos recombinantes de FGF2-18kDa não impediram que estas proteínas se ligassem e ativassem os FGFRs. Por outro lado, o recombinante His-FGF2-22,5 dispara apenas as vias de sinalização mitogênica em ambas as células Y1 e 3T3, mas este efeito biológico não é inibido por PD173074. Estes resultados sugerem que a seqüência N-terminal de 55 resíduos, rica em aminoácidos básicos, impede que o FGF2-22,5kDa se ligue e/ou ative os FGFRs. Entretanto, o recombinante His-FGF2-22,5ProA dispara a resposta antagônica característica do FGF2-18kDa. As implicações destes últimos resultados é que o domínio de ProA adicionado ao C-terminal torna o FGF2-22,5kDa um bom ligante dos FGFRs. A interação física entre ligante e receptor das formas recombinantes His-FGF2-18kDa (ou His-FGF2-18ProA) e FGF2-22,5kDa com os putativos FGFRs foi analisada através da técnica de SPR e os resultados mostram KDs aproximados (Kd18=21, 488.10-9 e Kd22,5=20,70393.10-9), enquanto que o número de sítios ligantes em vesículas microssomais das células é significantemente inferior para o FGF2-22,5kDa. Estes resultados são compatíveis com a existência de receptores diferentes para FGF2-18kDa e FGF2-22,5kDa, uma hipótese ainda a ser definitivamente corroborada. Em conclusão, o FGF2-18kDa, mesmo em formas recombinantes como proteína de fusão, dispara todos os efeitos biológicos descritos para FGF2, através dos FGFRs. Diferentemente, o FGF2-22,5kDa, como fator parácrino, só desencadeou a resposta mitogênica clássica de FGF2, provavelmente através de receptores diferentes dos FGFRs. Os resultados e conclusões desta tese têm um potencial indiscutivelmente relevante para a biologia molecular do câncer, com implicações possíveis em terapia oncológica / FGF2 (Fibroblast Growth Factor 2), the founder of the FGF family, has regulatory functions in mitogenesis, differentiation, morphogenesis and tissue repair. Multiple FGF2 molecular species, sharing a C-terminal sequence of 155 amino acids, are translated from different iniciation sites of the same mRNA. The smaller, the FGF2-18kD, is extracellularly released to bind to specific membrane receptors (FGFRs), performing paracrine and autocrine functions. On the other hand, the larger FGF2s (21, 22, 22.5 and 34kDa) are intracellular species that bind to unknown partners to play still undefined intracrine roles. The aim of this thesis was to produce recombinant species of FGF2-18kDa and FGF2-22,5kDa, in the form of fusion proteins, to analyze functions and signaling mechanisms. In mouse Y1 malignant cells, FGF2-18kD recombinants (FGF2-18kDa and His-FGF2-18kDaProA) triggered an antagonistic response activating mitogenic signaling pathways, but blocking the cell cycle. However, in non tumorigenic Balb3T3 fibroblasts, these same FGF2-18kD recombinants only elicited the classical mitogenic response. All biological effects of these FGF2-18kD recombinants were blocked by the specific inhibitor of FGFR-protein-tyrosine-kinases, PD173074, demonstrating that these responses are mediated by FGFRs. Therefore, the new peptide domains added to FGF2-18kD did not prevent these recombinant fusion proteins to bind and activate FGFRs. Conversely, the recombinant His-FGF2-22,5kDa triggered only mitogenic signaling pathways in both Y1 and Balb3T3 cells, a biological effect not inhibited by PD173074. These results suggested that the additional basic-rich N-terminal sequence of 55 amino acid residues, found in FGF2-22,5kDa, prevents this FGF2 species from binding and / or activate FGFRs. However, surprisingly, the recombinant His-FGF2-22kDaProA triggered the antagonistic response characteristic of FGF2-18kDa. These results imply that the ProA-domain added to the C-terminal end rendered the FGF2-22,5kDaProA a good ligand of FGFRs. The physical interaction between recombinants of both His-FGF2-18kD and His-FGF2-22kDa with putative FGFRs, analyzed by SPR, yielded close KD values (KD18=21, 5.10-9 e K D22,5=20,7.10-9), while the number of binding sites in cell microsomal vesicles were significantly lower for the His-FGF2-22,5kDa. These results are consistent with the existence of different receptors for FGF2 and FGF2-18kD-22,5kDa, a hypothesis that has yet to be definitively confirmed. In conclusion, FGF2-18kD, even as recombinant fusion proteins, triggered all biological effects of FGF2, through FGFRs. Conversely, the FGF2-22, 5kDa only triggered the classical mitogenic response, probably via receptors other than FGFRs. The results and conclusions of this thesis are potentially of great interest in cancer molecular biology, with implications in oncologic therapy.

Cell proliferation

Estrutura e função de proteínas

FGF

FGF

FGF-2

FGF-2

Proliferação celular

Proteínas recombinantes

Recombinant proteins

Ressonância Plasmônica de Superfície

Structure and function of proteins

Surface Plasmon resonance (SPR)

Modelagem de nano-estruturas para aplicações na geração de Plásmon-Poláritons de Superfície (SPP) / Modeling of nano-structures for applications in generation - Plasmon Surface Polariton (SPP)

Yang, Min Shih

08 September 2009

O incessante aumento do volume de informações produzido por uma sociedade cada vez mais informatizada tem elevado drasticamente os requisitos quanto ao desenvolvimento de dispositivos capazes de suportar velocidades de operação cada vez mais elevadas em tamanhos cada vez mais reduzidos. No entanto, a contínua redução do tamanho desses dispositivos, celebrado através da lei de Moore, também produz um indesejável aumento na produção de calor durante a operação dos mesmos, comprometendo seu desempenho global. Uma alternativa promissora para aliviar, ou mesmo superar, estas limitações é oferecida pelos dispositivos ópticos integrados. No entanto, todo esse avanço esbarrava no fato de que as dimensões de tais dispositivos estavam restringidas fundamentalmente ao que é largamente conhecido como limite de difração (LD). Uma maneira de contornar essa limitação é obtida através da utilização de Plásmon Poláritons de Superfície, ou SPPs, que, de maneira simplificada, são ondas que se propagam ao longo da superfície de um condutor depositado sobre um dielétrico. Estas são essencialmente ondas de luz que são localizadas na superfície por causa de sua interação com os elétrons livres do condutor. Nesta interação, os elétrons livres respondem coletivamente oscilando em ressonância com a onda de luz. No presente trabalho, o fenômeno de geração de SPPs é estudado teoricamente e aplicado na modelagem de diversas estruturas de interesse científico e tecnológico, tais como acopladores direcionais e ressoadores. O objetivo principal é a obtenção de estruturas capazes de proporcionar propagação de SPPs por longas distâncias, permitindo, assim, estender ainda mais o leque de possíveis aplicações. As estruturas são investigadas prioritariamente no COMSOL Multiphysics, um aplicativo baseado em elementos finitos que permite solução vetorial de problemas eletromagnéticos. Os resultados obtidos até o momento permitem afirmar que o conceito de SPP de longa distância (long range SPP, LRSPP) podem ser aplicados com sucesso a estruturas geometricamente complexas como os ressoadores em anel e acopladores direcionais. / The continuous growth of knowledge produced by a society with increasing access to information technologies has demanded the development of communication devices capable of supporting high processing speeds at more and more reduced sizes. Nevertheless, the continuous reduction of the size of these devices, celebrated by the Moore\'s law, has also produced an undesirable increase of heat produced during the operation of the device itself, compromising its overall performance. A promising alternative to alleviate, or even overcome, these limitations has been offered by photonic integrated circuits. However, all the advance of photonic devices was restricted to what is known as diffraction limit. A fascinating way of circumventing this limit is now available to the scientific community, and consists in the generation of Surface Plasmon Polariton (SPP) waves. In a simplified manner, SPP waves are waves that propagate along a metal/dielectric interface. These waves are essentially localized at the metal/dielectric interface because of the interaction of light with free electrons of the metal. In this interaction, the free electrons respond collectively and oscillate resonantly with the incident light. In the present work, the phenomenon of SPP generation is theoretically investigated and applied to the modeling of several structures, such as directional couplers and resonators. The primary goal of this work is to design structures capable propagating SPP waves for long distances, known as long range SPP (LRSPP). The structures are investigated mostly with COMSOL Multiphysics, a finite elements based software that allows for the vectorial solution of electromagnetic problems. The results obtained so far are extremely encouraging, and prove that the LRSPP concept can be successfully applied to geometrically complex structures, such as couplers and ring resonators.

Acoplador direcional

Directional couplers

Multilayer rib waveguides

Plásmon-poláritons de superfície

Ressoadores em anel

Ring resonators

Surface Plasmon Polariton

Caracterização por ressonância de plasmons de superfície de biossensores eletroquímicos aplicados à detecção de neurotoxinas. / Characterization by surface plasmon resonance of electrochemical biosensors applied to neurotoxins detection.

Souza, Diego Custódio de

13 November 2013

Os dispositivos biossensores foram primeiramente pesquisados por Clark e Lyons, em 1962, visando medir o nível de glicemia. Atualmente, há uma popularização dos medidores de glicemia e diversas tecnologias foram desenvolvidas, principalmente, para aplicações em diagnósticos médicos e monitoramento ambiental. No entanto, há uma ampla quantidade de aplicações para biossensores ainda não disponível no mercado. A imobilização de espécies bioativas que interagem diretamente com o analito, chamada de superfície bioativa, é frequentemente considerada a etapa mais difícil no desenvolvimento de biossensores para novas aplicações. O objetivo deste trabalho é demonstrar a caracterização da camada bioativa desenvolvida pela técnica de construção de camadas auto-organizadas usando o princípio da adsorção eletrostática. Para isto, foram utilizadas três diferentes concentrações de soluções compostas por ligações covalentes entre nanotubos de carbono de paredes múltiplas e três diferentes biomateriais, Polietilenoimina, Ácido Desoxirribonucléico e enzimas do tipo Hidrolase de Organofosforados. As diferentes soluções polieletrolíticas foram caracterizadas pela técnica de ressonância de plasmons de superfície e simultaneamente formaram camadas auto-organizadas na superfície de um eletrodo de carbono vítreo. A atividade das enzimas foi analisada por voltametria cíclica para as diferentes concentrações das soluções utilizadas. Os resultados mostraram que a caracterização por ressonância de plasmons de superfície promove o controle da adsorção eletrostática. A variação do ângulo de ressonância de plasmons de superfície corresponde à intensidade e à saturação das interações eletrostáticas entre as camadas. Biossensores desenvolvidos com soluções de maior concentração, consequentemente, ampliaram os limites de detecção e elevaram a resolução do sinal elétrico. Em aplicações para medir baixas concentrações do analito, o adequado controle das concentrações das soluções poli eletrolíticas reduz os custos no desenvolvimento de biossensores especialmente, com relação ao custo de enzimas isoladas. / The biosensor devices were first researched by Clark and Lyons in 1962, aiming to measure the blood glucose level. Currently, there is a popularization of blood glucose meters and several technologies have been developed mainly for applications in medical diagnostics and environmental monitoring. However, there is a wide range of applications for biosensors not yet available. The immobilization of bioactive species that interact directly with the analyte, called bioactive surface, is often considered the most difficult step in the biosensors development for new applications. The objective of this work is to demonstrate the characterization of the bioactive surface developed by self-assembled monolayers technique using the electrostatic adsorption principle. For this, we used three different concentrations of solutions composed of covalent bonds between multi-walled carbon nanotubes and three different biomaterials, Polyethyleneimine, Deoxyribonucleic Acid and Organophosphorous Hydrolase enzymes. These enzymes catalyze the hydrolysis of phosphorus compounds such as organophosphorous neurotoxins. The different polyelectrolyte solutions were characterized by the technique of surface plasmon resonance, and simultaneously, self-assembled monolayers were formed on the surface of a glassy carbon electrode. The enzymes activity was analyzed by cyclic voltammetry for the different concentrations of the solutions used. The results showed that the surface plasmon resonance characterization promote the control of electrostatic adsorption. The variation of the surface plasmon resonance angle corresponds the intensity and saturation of electrostatic interactions between the layers. Biosensors developed with solutions of higher concentration, consequently, widened the detection limits, and increased the resolution of the electrical signal. In applications to measure low concentrations of analyte, adequate control of the concentrations of polyelectrolytes solutions reduces costs in the development of biosensors especially, the cost of isolated enzymes.

Biosensors

Biossensores

Carbon nanotubes

Cyclic voltametry

Enzyme immobilization

Hidrolase de organofosforados

Imobilização de enzimas

Nanotubos de carbono

Organophosphorus hidrolases

Ressonância de plasmons de superfície

Surface plasmon resonance

Voltametria cíclica

Ultrafast nonlinear optical processes in metal-dielectric nanocomposites and nanostructures

Kim, Kwang-Hyon

17 April 2012

Diese Arbeit ist der theoretische Untersuchung nichtlinearer optischer Prozesse in metall-dielektrischen Medien gewidmet, wobei Möglichkeiten zur Ausnutzung der erhöhten nichtlinearen Koeffizienten und der Feldüberhöhung durch metallische Nanoteilchen untersucht wurden. Die wichtigsten Ergebnisse beziehen sich auf eine Untersuchung der zeitabhängigen sättigbaren Absorption in Gläsern, die mit metallischen Nanoteilchen dotiert sind, ihrer physikalischen Ursache sowie verschiedener Anwendungen in der nichtlinearen Optik. Zur Untersuchung der Zeitabhängigkeit der nichtlinearen Rückwirkung wird unter Verwendung des semi-klassischen Zwei-Temperatur-Modells eine zeitabhängige Gleichung für die nichtlineare dielektrische Funktion der Metalle hergeleitet. Die Ergebnisse zeigen, dass solche Gläser, sich als sehr effiziente sättigbare Absorber im Spektralbereich vom sichtbaren bis nahen IR eignen. Für kurzwellige Laser im blau/violetten Spektralbereich wird die Dynamik der Modenkopplung in Festkörper- und Halbleiter-Scheibenlaser untersucht. Weiterhin wird ein neuer Mechanismus für die Realisierung von langsamem Licht vorgeschlagen und im Detail untersucht, der in solchen dotierten Gläsern in einem Pump-Probe Regime infolge der sättigbaren Absorption in der Nähe der Plasmonresonanz realisierbar ist. Weiterhin untersuchten wir die Möglichkeit einer Femtosekunden Plasmon Impulserzeugung durch Modenkopplung eines Oberflächen Plasmonlasers mit einem Bragg Resonator, der aus einer dünnen Schicht aus Silber sowie einem sättigbaren Absorbers und einem Verstärker besteht. Im letzten Teil der Arbeit werden Ergebnisse zur Erzeugung hoher Harmonischer in Edelgasen in der Nähe einer metallischen fraktalen rauen Oberfläche untersucht. Die Berechnungen zeigen eine Reduzierung der geforderten Intensität um drei Größenordnungen und eine um zwei Größenordnungen erhöhte Effizienz gegenüber der bisher experimentell realisierten HHG in der Nähe von metallischen "bow-tie"Nanostrukturen. / This work reports results of a theoretical study of nonlinear optical processes in metal-dielectric nanocomposites used for the increase of the nonlinear coefficients and for plasmonic field enhancement. The main results include the study of the transient saturable nonlinearity in dielectric composites doped with metal nanoparticles, its physical mechanism as well its applications in nonlinear optics. For the study of the transient response, a time-depending equation for the dielectric function of the nanocomposite using the semi-classical two-temperature model is derived. By using this approach, we study the transient nonlinear characteristics of these materials in comparison with preceding experimental measurements. The results show that these materials behave as efficient saturable absorbers for passive mode-locking of lasers in the spectral range from the visible to near IR. We present results for the modelocked dynamics in short-wavelength solid-state and semiconductor disk lasers; in this spectral range other efficient saturable absorbers do not exist. We suggest a new mechanism for the realization of slow light phenomenon by using glasses doped with metal nanoparticles in a pump-probe regime near the plasmonic resonance. Furthermore, we study femtosecond plasmon generation by mode-locked surface plasmon polariton lasers with Bragg reflectors and metal-gain-absorber layered structures. In the final part of the thesis, we present results for high-order harmonic generation near a metallic fractal rough surface. The results show a possible reduction of the pump intensities by three orders of magnitudes and two orders of magnitudes higher efficiency compared with preceding experimental results by using bow-tie nanostructures.

Oberflächenplasmon

Nichtlineare Optik

Ultraschnelle Optik

Plasmonics

Surface Plasmon

Nonlinear Optics

Ultrafast Optics

Plasmonics

530 Physik

29 Physik, Astronomie

UP 3740

UH 5616

ddc:530

Caracterização por ressonância de plasmons de superfície de biossensores eletroquímicos aplicados à detecção de neurotoxinas. / Characterization by surface plasmon resonance of electrochemical biosensors applied to neurotoxins detection.

Diego Custódio de Souza

13 November 2013

Os dispositivos biossensores foram primeiramente pesquisados por Clark e Lyons, em 1962, visando medir o nível de glicemia. Atualmente, há uma popularização dos medidores de glicemia e diversas tecnologias foram desenvolvidas, principalmente, para aplicações em diagnósticos médicos e monitoramento ambiental. No entanto, há uma ampla quantidade de aplicações para biossensores ainda não disponível no mercado. A imobilização de espécies bioativas que interagem diretamente com o analito, chamada de superfície bioativa, é frequentemente considerada a etapa mais difícil no desenvolvimento de biossensores para novas aplicações. O objetivo deste trabalho é demonstrar a caracterização da camada bioativa desenvolvida pela técnica de construção de camadas auto-organizadas usando o princípio da adsorção eletrostática. Para isto, foram utilizadas três diferentes concentrações de soluções compostas por ligações covalentes entre nanotubos de carbono de paredes múltiplas e três diferentes biomateriais, Polietilenoimina, Ácido Desoxirribonucléico e enzimas do tipo Hidrolase de Organofosforados. As diferentes soluções polieletrolíticas foram caracterizadas pela técnica de ressonância de plasmons de superfície e simultaneamente formaram camadas auto-organizadas na superfície de um eletrodo de carbono vítreo. A atividade das enzimas foi analisada por voltametria cíclica para as diferentes concentrações das soluções utilizadas. Os resultados mostraram que a caracterização por ressonância de plasmons de superfície promove o controle da adsorção eletrostática. A variação do ângulo de ressonância de plasmons de superfície corresponde à intensidade e à saturação das interações eletrostáticas entre as camadas. Biossensores desenvolvidos com soluções de maior concentração, consequentemente, ampliaram os limites de detecção e elevaram a resolução do sinal elétrico. Em aplicações para medir baixas concentrações do analito, o adequado controle das concentrações das soluções poli eletrolíticas reduz os custos no desenvolvimento de biossensores especialmente, com relação ao custo de enzimas isoladas. / The biosensor devices were first researched by Clark and Lyons in 1962, aiming to measure the blood glucose level. Currently, there is a popularization of blood glucose meters and several technologies have been developed mainly for applications in medical diagnostics and environmental monitoring. However, there is a wide range of applications for biosensors not yet available. The immobilization of bioactive species that interact directly with the analyte, called bioactive surface, is often considered the most difficult step in the biosensors development for new applications. The objective of this work is to demonstrate the characterization of the bioactive surface developed by self-assembled monolayers technique using the electrostatic adsorption principle. For this, we used three different concentrations of solutions composed of covalent bonds between multi-walled carbon nanotubes and three different biomaterials, Polyethyleneimine, Deoxyribonucleic Acid and Organophosphorous Hydrolase enzymes. These enzymes catalyze the hydrolysis of phosphorus compounds such as organophosphorous neurotoxins. The different polyelectrolyte solutions were characterized by the technique of surface plasmon resonance, and simultaneously, self-assembled monolayers were formed on the surface of a glassy carbon electrode. The enzymes activity was analyzed by cyclic voltammetry for the different concentrations of the solutions used. The results showed that the surface plasmon resonance characterization promote the control of electrostatic adsorption. The variation of the surface plasmon resonance angle corresponds the intensity and saturation of electrostatic interactions between the layers. Biosensors developed with solutions of higher concentration, consequently, widened the detection limits, and increased the resolution of the electrical signal. In applications to measure low concentrations of analyte, adequate control of the concentrations of polyelectrolytes solutions reduces costs in the development of biosensors especially, the cost of isolated enzymes.

Biossensores

Hidrolase de organofosforados

Imobilização de enzimas

Nanotubos de carbono

Ressonância de plasmons de superfície

Voltametria cíclica

Biosensors

Carbon nanotubes

Cyclic voltametry

Enzyme immobilization

Organophosphorus hidrolases

Surface plasmon resonance

Nanoantennes plasmoniques / Plasmonic nanoantennas

Bigourdan, Florian

18 December 2014

Dans ce travail de thèse, on s’intéresse aux applications des concepts d’antenne pour la manipulation de la lumière. Aux fréquences optiques, les antennes métalliques font intervenir des modes de surfaces dit plasmoniques permettant une forte interaction lumière/matière dans des volumes hautement confinés. Pour tirer partie de cette propriété, on s’intéressera à trois applications des antennes plasmoniques. D’abord dans le cadre des sources de photons uniques, on présentera une étude théorique et expérimentale des performances d’émetteurs uniques en présence d’une antenne planaire métallique. Nous proposerons ensuite une stratégie pour améliorer les performances de l’antenne. Puis dans le cadre de la génération électrique de lumière par effet tunnel inélastique, on analysera la modification des propriétés de rayonnement en présence d’un petit cylindre métallique. Cette analyse ouvre la voie à la conception de sources électriques intégrées de plasmons de surface. Enfin dans le cadre de la détection de molécules en faible quantité, on étudiera théoriquement l’interaction d’un faisceau infrarouge avec une couche de molécules résonnantes déposées sur un miroir métallique nanostructuré. / The work of this thesis has been devoted to a few applications of antenna concepts for the manipulation of light. In the optical range, surface modes called surface plasmon polaritons take place in the vicinity of metallic antennas, enabling a strong light/matter interaction within highly confined volumes. In order to take advantage of this property, three applications of plasmonic antennas will be investigated. First, in the case of single-photon sources, both theoretical and experimental studies of single-emitters performance when coupled to a planar metallic antenna will be presented. A strategy to enhance its performance will be studied theoretically. Then, in the case of electrical generation of light by inelastic electron tunneling, we will analyse the modification of radiation properties close to a metallic nano-rod. This analysis paves the way towards the design of integrated, compact electrical sources of surface plasmons. Finally, in the case of detecting a weak quantity of molecules, the interaction between an infrared light beam and a sub-nanometric layer of resonant molecules deposited on a nanostructured metallic mirror will be studied.

Source de photons uniques

Source de plasmon de surface

Détecteur de molécules uniques

Nanoantenne

Modélisation électromagnétique

Single-photon source

Surface plasmon source

Single molecule detector

Nanoantenna

Modelisation - electromagnetism

530.15

535.3