Studies of polysaccharide adsorption onto model cellulose surfaces and self-assembled monolayers by surface plasmon resonance spectroscopy

Kaya, Abdulaziz

21 September 2009

Throughout the study of polymer adsorption at the air/water and solid/water interfaces, surface tension measurements and surface plasmon resonance (SPR) spectroscopy have been identified as key methods for the acquisition of structural and thermodynamic information. These techniques were used to determine air/water and cellulose/water interfacial properties of pullulan (P) and pullulan cinnamates (PCs), 2-hydroxypropyltrimethylammonium xylans (HPMAXs), and hydroxypropyl xylans (HPXs). Hydrophobic modification of pullulan with cinnamate groups promoted adsorption onto model surfaces of regenerated cellulose. In order to understand the relative contributions of hydrophilic and hydrophobic interactions towards PC adsorption, PC adsorption onto self-assembled monolayers (SAMs) with different functional groups was also studied. As the degree of cinnamate substitution increased, greater adsorption onto cellulose, methyl-terminated SAMs (SAM-CH3), and hydroxyl-terminated SAMs (SAM-OH) was observed. This study showed that hydrogen bonding alone could not provide a complete explanation for PC adsorption onto cellulose. The adsorption of cationic 2-hydroxypropyltrimethylammonium (HPMA) xylans with different degrees of substitution (DS) onto SAMs and regenerated cellulose was studied by SPR. Surface concentration (Р) exhibited a maximum (Рmax) for HPMAX adsorption onto carboxylic acid-terminated SAMs (SAM-COOH) at an intermediate HPMA DS of 0.10. This observation was indicative of a relatively flat conformation for adsorbed HPMAXs with higher HPMA DS because of higher linear charge densities along the polymer backbone. Рobserved for HPMAX adsorption onto regenerated cellulose and SAM-OH surfaces was relatively low compared to HPMAX adsorption onto SAM-COOH surfaces. Surface tension measurements for aqueous solutions of HPX by the Wilhelmy plate technique showed that surface tension changes ("γ = γwater " γHPX(aq)) increased and critical aggregation concentrations generally decreased with increasing hydroxypropyl (HP) DS. Hence, even though HP substitution was necessary to induce aqueous solubility, excessive hydroxypropylation promoted aggregation in water. SPR studies indicated that HPXs did not adsorb significantly onto regenerated cellulose or SAM-OH surfaces (submonolayer coverage). In contrast, HPX did adsorb (~monolayer coverage) onto SAM-CH3 surfaces. Collectively, these studies showed natural polymers could be chemically modified to produce surface modifying agents with sufficient chemical control, whereby the surface properties of the resulting systems could be explained in terms of chemical structure and intermolecular interactions. / Ph. D.

hemicelluloses

xylans

surface plasmon resonance spectroscopy

self-assembled monolayer

model cellulose surfaces

polysaccharide adsorption

Studies on the Adsorption of Surfactants and Polymers to Surfaces and Their Effects on Colloidal Forces

Tulpar, Aysen

11 November 2004

Surfactants, polymers, and their mixtures are widely used in commercial formulations of paints, water-based adhesives, detergents, food, and other products. This thesis describes measurements of the forces acting on colloidal particles in surfactant and polymer solutions. The change in force on addition of surfactants and polymers is usually caused by adsorption to an interface. In this thesis, I also describe the effect of surface charge density, surface crystallinity, surface heterogeneity, and preadsorbed polymer on surfactant adsorption. A new method for the stabilization of colloidal particles is introduced via the synthesis and adsorption of unnatural proteins. Unnatural proteins can be synthesized using the natural "machinery" of a bacterial cell with almost any primary sequence, and provide an environmentally friendly route to colloidal stabilization. As a model system, we study the stabilization of alumina, because alumina has a high Hamaker constant and is therefore difficult to stabilize. An unnatural protein with the sequence, thioredoxin-Pro39Glu10 is used. The Glu10 is anionic (pH > 3) and is designed to adsorb to positively charged alumina (pH<9). The thioredoxin-Pro39 is hydrophilic so it should remain in solution, thereby providing a steric barrier to the approach of two particles in a range of salt and pH conditions. Ellipsometry experiments show that thioredoxin-Pro39Glu10 adsorbs to alumina. Force measurements with the Atomic Force Microscopy (AFM) colloid probe technique show that adsorption of the unnatural protein leads to repulsive forces that decay exponentially with the separation between the surfaces, and are independent of salt concentration. The loss of a salt-dependent force shows that adsorption of the unnatural protein has effectively neutralized the charge on the alumina. Thus, I have shown that an unnatural protein can be used to control the stability of a colloidal system. In general, the same hydrophilic block can probably be added to a variety of anchoring blocks to stabilize different colloidal particles. Electrostatic forces are frequently responsible for the stabilization of colloidal particles. The decay length of these forces is dictated by the electrolyte concentration. The relationship between the decay length and the concentration is well understood for fully dissociated 1:1 electrolytes. Here, I examine the decay-length in solutions where the ions associate strongly. The forces are measured between silica surfaces in aqueous carboxylic acid and surfactant solutions. The decay lengths of the electrostatic double-layer force in both these solutions are well described by the usual expression for decay length when the concentration of ions is obtained from an activity measurement. The effect of the surface properties of the solid substrate on surfactant adsorption is also described in this thesis. The adsorption characteristics of a charged surfactant onto fixed charged surfaces as a function of surface charge density is reported. This is the first time that a method has been introduced for making a series of known fixed charged surfaces. Investigating surfactant adsorption to these surfaces has improved our understanding of the role of charge density in surfactant adsorption and desorption. The desired surface charge density is achieved by the use of gold-thiol self-assembled monolayers (SAMs) of different Ï -groups ("OH and "N+(CH3)3). The mole fraction of "N+(CH3)3 on the mixed SAM dictates the surface charge density. The charge on "N+(CH3)3 is fixed and does not self-regulate. The adsorption of sodium dodecyl sulfate (SDS) to the interface between these model surfaces and aqueous solutions of SDS is investigated. Atomic Force Microscopy (AFM) of the adsorbed surfactant reveals no surface micelles above the critical micelle concentration, cmc, over a wide variety of "N+(CH3)3 densities. This shows that the lateral mobility of ions other than surfactant at the interface is important for the formation of surface micelles of ionic surfactants. Adsorption isotherms of SDS (with no added salt) measured by Surface Plasmon Resonance (SPR) show a plateau region in which the surface excess of SDS is equal to the known fixed surface charge. This demonstrates that the adsorption is electrostatically driven. There is no critical surface charge density at which adsorption rises rapidly. Thus there appears to be no 'hemimicelle concentration'. My work suggests that the formation of hemimicelles depends on the lateral mobility of the surface ions. Desorption experiments starting above the cmc show rapid desorption of SDS into water until the surface excess is equal to the surface charge density. The rapid desorption is followed by a much slower desorption. The elucidation of this fast-slow desorption pattern based on charge density is made possible by the preparation of a set of constant charge surfaces. / Ph. D.

Atomic Force Microscopy

Surface Plasmon Resonance

Self-Assembled Monolayer

Surface Charge

Mechanically interlocked and redox switchable molecules at surfaces

Rahman, Habibur

January 2013

This thesis explores the surface assembly of mechanically interlocked molecular architectures at gold surfaces for potential applications in molecular switches, anion sensing and stimuli (redox and optical) responsive molecular films. <b>Chapter One</b> introduces the field of mechanically interlocked molecules focusing on rotaxane and catenane surface assemblies in the form of single molecule thick self-assembled monolayers. A review of the surface-attached characteristics of mechanically interlocked molecules is given before exploring specific anion template directed strategies for their construction. The potential to incorporate both redox-active and optically-active functional groups within these mechanically interlocked molecules is also discussed. <b>Chapter Two</b> provides the experimental details and procedures employed in this thesis to characterise the molecular systems under investigation. <b>Chapter Three</b> introduces several surface characterisation techniques such as; ellipsometry, contact angle, X-ray reflectivity and X-ray photoelectron spectroscopy, with a particular focus of applying these tools to probe the surface co-conformation of switchable and interlocked molecules at surfaces. Electroanalytical techniques such as cyclic voltammetry, chronoamperometry and electrical impedance spectroscopy are also introduced. <b>Chapter Four</b> details the surface assembly of a series of ferrocene containing anion templated catenane self-assembled monolayers on gold. Detailed electrochemical and angle resolved X- ray photoelectron spectroscopy characterisation elucidates the co-conformation upon surface attachment. <b>Chapter Five</b> details the anion templated surface assembly of a redox-active rotaxane self- assembled monolayer on gold. Subsequent electroanalysis and X-ray photoelectron spectroscopy characterisation confirms the structural integrity of the film and a possible co- conformation at the surface is discussed. <b>Chapter Six</b> describes efforts towards constructing optically responsive hybrid d-f lanthanide containing mechanically interlocked molecules. Initial work focuses on switching characteristics of a redox switchable antennae and its ability to modulate the luminescence of a series of lanthanide complexes in solution. Subsequent surface attachment of the lanthanide complexes in the form of emissive self-assembled monolayers is also investigated.

541

Photocontrôle d'événements de reconnaissance moléculaire au sein de récepteurs greffés sur des surfaces : vers des ardoises supramoléculaires / Photocontrol of recognition events in surface-bound anthracene gated receptors

Liang, Chih-Kai

04 December 2012

Des récepteurs de barbiturates greffés avec des groupements anthracène photoactifs possédant différentes fonctions d’ancrage ont été synthétisés et caractérisés, en vue de transférer leurs propriétés de reconnaissance photocontrôlable à des substrats par diverses techniques de modification, comme la formation de liaisons amide, de liaisons thioacétate, ou par réaction click. Les propriétés photophysiques et photochimiques de ces récepteurs ont été étudiées en solution, et la fluorescence, la durée de vie et le rendement quantique ont été mesurés à différentes températures. Des surfaces d’or modifiées ont été fabriquées et caractérisées par ellipsométrie, mesure d’angle de contact, AFM et PM-IRRAS. Les résultats montrent qu’il est possible de moduler les propriétés de reconnaissance moléculaire des récepteurs de manière réversible via une combinaison d’irradiation lumineuse (365 nm) et de chaleur (80 °C). / Anthracene-appended photoactive barbiturate receptors possessing various anchoring groups are synthesized and characterized in view of transferring their photocontrolled binding properties onto substrates through various surface grafting techniques, such as amide bond formation, direct thioacetate linkage, or post click reaction modification. The photophysical and photochemical properties of the synthesized receptors were investigated in solution using variable temperature fluorescence, lifetime measurement and reaction quantum yield measurements. Receptor-modified gold substrates were characterized using ellipsometry, contact angle, AFM and PM-IRRAS experiments. The results showed that it is possible to reversibly modulate the binding properties of the anthracene-appended receptors through a combination of the irradiation with light (365nm) and heat (80℃).

Anthracène

Photodimérisation

Modification de surface

Hamilton récepteur

Monocouche auto-assemblée

Anthracene

Photodimerization

Surface modification

Hamilton receptor

Self-assembled monolayer

Etude du comportement micro-nanotribologique de matériaux fonctionnalisés pour les MEMS / Micro-nanotribological behaviours of functionnalized materials for MEMS

Domatti, Anne

28 May 2014

A l’échelle micro-nanométrique, la fiabilité et la durée de vie des microsystèmes (MEMS),généralement réalisés en silicium, sont fortement affectées par les effets de frottement, d’adhesion,d’usure... L’objectif de ce travail est d’étudier les mécanismes de frottement et d’usure sur deswafers de silicium. Le comportement micro-nanotribologique de monocouches auto-assemblées(SAMs) d’alkyltrichlorosilane, déposées sur des wafers de silicium de différentes orientationscristallographiques – i.e, Si(100), Si(111) et Si(110), a été étudié à l’aide d’un nanotribomètre. Lesparamètres modifiés au cours de l’étude sont les suivants : la longueur de la chaîne, les paramètrestribologiques (charge normale, vitesse de glissement, distance de glissement, taux d’humidité relativeet température du substrat) et les propriétés de surface du silicium (orientation cristallographique,topographie). Les résultats expérimentaux montrent que le comportement nanotribologique desmonocouches greffées sur des substrat polis est influencé par l’homogénéité du film et la fractiond’aire qu’il couvre. Ces deux paramètres étant contrôlés par le temps d’immersion et l’orientationcristallographique du substrat. La topographie du silicium a également été modifiée de manièreà créer des motifs périodiques (microstructure par DRIE). Le comportement tribologique de cessurfaces revêtues d’OTS est contrôlé par les variations des propriétés physico-chimiques dessurfaces et la fragilité de la microstructure. Pour s’affranchir des problèmes de fragilité, des motifsstructurés à l’échelle nanométrique sont réalisés par nano-impression. / At micro and nanoscale, fiability and durability of micromechanical devices (MEMS), usuallymanufactured of silicon, are strongly affected by the friction effects, adhesion, wear... The aim ofthis work is to study the mechanisms of friction and wear of silicon wafers. Micro/nanotribologicalstudy of self-assembled monolayers (SAMs) derived from n-alkyltrichlorosilanes deposited on siliconwafers displaying various crystallographic orientations – i.e, Si (100), Si (111) and Si (110) – hasbeen conducted using a nanotribometer (ball-on-disc). The parameters that have been varied are: the alkyl chain length, the tribological parameters (normal load, sliding velocity, sliding distance,relative humidity level and substrat’s temperature) and surface characteristics of the silicon substrates(crystallographic orientation, roughness). On smooth silicon substrats, experimental results show thatthe tribological behaviour of SAMs is control by the film’s homogeneity and the surface coverageof the monolayer in connection with the time immersion and the crystallographic orientation of thesubstrate. The topography of silicon was also modified by changing the microstructure by DRIE inorder to create periodic patterns. The tribological behavior of OTS SAM grafted on microstructuredsurfaces was controlled by the changes in physico-chemical properties and the fragility of thepatterns. To overcome the problems of fragility of these surfaces, patterns at the nanoscale areachieved by nanoimprint.

Nanotribologie

Monocouche auto-assemblée

MEMS

Microstructuration

Nanotribology

Self-assembled monolayer

Substrate cristallographic orientation

MEMS

Microstructuration

620

Propriétés optiques de monocouches moléculaires auto-assemblées sur surfaces métalliques / Optical properties of molecular self-assembled monolayers onto metallic surfaces

Jaouen, Maud

12 November 2014

Les azobenzènes sont des molécules photochromes très étudiées, leurs propriétés de photoisomérisation donnent notamment lieu à d’importants phénomènes de transport de matière photoinduit en milieu polymère. L’objectif de cette thèse est de mieux comprendre les différents paramètres régissant de tels effets photomécaniques. Pour ce faire, nous avons entrepris des études sur des monocouches de dérivés azobenzenes auto-assemblés ou SAMs (Self-Assembled Monolayers) sur substrats d’or atomiquement plans, de façon à pouvoir réaliser à la fois des caractérisations d’ensemble (propriétés de mouillage : mesures d’angles de contact) ou des caractérisations à l’échelle de la molécule individuelle (par microscopie à effet tunnel, STM). Nous avons choisi le système d'un alcane thiol fonctionnalisé par un azobenzène pour bénéficier de la facilité que possèdent les alcanes thiols à former des SAMs hautement organisées. L'autre avantage que propose ce système est de pouvoir jouer avec la longueur de la chaîne carbonée, ce qui permet d'espacer plus ou moins le groupe photo-actif de la surface métallique du substrat d'or. Ainsi ces systèmes paraissent bien adaptés pour identifier l’influence de paramètres tels que (1) les phénomènes de transferts d’énergie ou de charges pouvant exister entre molécules ou entre molécules et substrat et (2) les problèmes éventuels de gêne stérique.Nous avons étudié des azobenzenes greffés (1) sur une courte chaîne alcanethiol (3 atomes de C - "azoc3"), et (2), sur une chaîne plus longue (12 C - "azoc12"). Les caractérisations STM ont mis en évidence un réseau dense similaire aux alcanes thiols non substitués dans le cas des "azosc3" mais aucune modification sous éclairement n’a été observée. Des mesures d’angle de contact, utilisant le changement de polarité entre les photoisomères Trans et Cis, confirment cette absence de réaction pour ces SAMs. Une photo-réactivité a par contre été mise en évidence par des mesures d'angle de contact pour l’espaceur long ("azoc12") sur des substrats d’or polycristallins. Les raisons d'un tel comportement proviennent des propriétés intrinsèques d'une SAM d'alcanethiol : un réseau très dense implique un volume libre restreint et d'importantes interactions intermoléculaires qui ajoutent des voies supplémentaires de désexcitation et donc inhibent les changements de conformation photo-induits, à l’exception des zones de défauts. Ces conclusions ont pu être étayées par des caractérisations complémentaires de fluorescence de SAMs similaires. Nous avons pu démontrer qu’un espaceur alcane correspondant à 11 C permettait un découplage électronique suffisant pour observer de la fluorescence sur des SAMs non denses de dérivés thiolés de fluorescéine. Ces études ont cependant confirmé la difficulté de contrôler la densité surfacique de molécules photosensibles (photochromisme ou fluorescence) insérées au sein de SAMs de thiols. A ce titre, nous avons pu démontrer l’intérêt d’un système moléculaire original possédant une accroche en surface d’encombrement supérieur à celui de la base soufrée des alcanes thiols. Ces systèmes se physisorbent sur des surfaces de graphite, leurs propriétés d’auto-assemblage étant également conservées dans le cas de substrat de graphène sur Cuivre. Ces feuillets possèdent l’avantage d’être facilement transférables sur des substrats transparents. Ces travaux offrent ainsi de nouvelles perspectives pour la réalisation d'expériences in situ simultanées couplant des analyses topographiques à l'échelle moléculaire via l’utilisation de sondes locales (STM ou AFM) et mesures optiques à plus grande échelle (microscopie optique inversée), ouvrant la voie à des caractérisations plus approfondies. / One of the most widely studied type of photochromic molecules are azo-dye molecules whose photo-isomerization reaction entails important mass transport processes in polymer matrices.The aim of this PhD Thesis was to get a better understanding of the key parameters controling such photomechanical properties. For this purpose, we have driven some studies on Self-Assembled Monolayers (SAMs) formed by azobenzene derivatives grafted to alkanethiol linkers on atomically flat gold surfaces. Self-assembling offers the possibility to perform both scanning tunnelling microscopy (STM) experiments at the molecular scale and contact angle measurement at the macroscopic scale.A derivative alkanethiol system has been chosen to take benefit from the alkanethiol ability to form dense and regular self-assembled monolayers. Another interest of the alkanethiol linker is to easily adjust distance between the azo moiety and the gold surface through the length of the alkane chain. Then, this type of SAMs seems to be the good candidate to study the influence of (1) charges coupling effects between the neighbouring azo moieties and between the molecules and the metallic surface and (2) steric hindrance problems. Both a short (3 carbon atoms – “azoC3”) and a long (12 carbon atoms – “azo-C12”) alkane linker have more specifically been investigated. Although STM characterization have shown that azoC3 was organizing into a dense and regular packing showing a network quite similar to the one observed in the case of alkanethiols self-assembly, no modification could be evidenced upon illumination. Polarity modification between the trans and cis photoisomers, probed by wetting measurements, confirm the lack of photo-reactivity of these molecules grafted through a short linker to the metallic substrate. However, photo-isomerization effects have been observed at the macroscopic scale on polycristallines substrates for the long linker (“azo-C12”). The reasons for such behavior come from the intrinsic properties of alkanethiol SAMs: a dense network involves a restricted free volume and significant intermolecular interactions that add additional de-excitation channels thus leading to a quenching of the photoinduced conformational changes, except at surface defects areas. These findings have been supported by complementary characterizations of fluorescence of similar thiolates SAMs. We have demonstrated that an alkane spacer corresponding to 11 C was allowing electronic decoupling thus leading to fluorescent emission in the case of non-dense thiolated SAMs of fluorescein derivatives. However, these studies have also confirmed the difficulty to control the dilution of photosensitive molecules (photochromic or fluorescent) inserted within thiolated SAMs. In order to overcome this problem, we have demonstrated the interest of another original molecular system whose extended head group permits the formation of a network less densely-packed than those formed by alkanethiol derivatives. These molecular systems self-assemble by physisorption onto graphite (HOPG) substrates, their organization properties being also maintained for graphene sheets deposited onto copper substrates. Advantageously, these sheets can easily be transferred to transparent substrates. These studies open thus new perspectives for the realization of simultaneous in-situ experiments coupling molecular scale topography informations using local probe microscopy (AFM or STM) and larger scale optical measurents (inverted optical microscopy) towards more accurate characterizations.

Azobenzène-thiol

Photoisomérie

Microscopie à effet tunnel

Systèmes auto-assemblés

Azobenzene-functionnalized

Photoisomerization

Scanning tunneling microscopy

Self-assembled monolayer

Desenvolvimento de uma nova plataforma para detecção de mioglobina empregando ressonância de plásmons de superfície e medidas eletroquímicas / Development of a new platform for detection of myoglobin using surface plasmon resonance and electrochemical measurements

Carvalho, Rita de Cassia Silva

26 July 2016

Submitted by Rosivalda Pereira (mrs.pereira@ufma.br) on 2017-06-02T19:23:04Z No. of bitstreams: 1 RitaCarvalho.pdf: 1268991 bytes, checksum: 9f30de20b2377b94837ba5ffe305debe (MD5) / Made available in DSpace on 2017-06-02T19:23:04Z (GMT). No. of bitstreams: 1 RitaCarvalho.pdf: 1268991 bytes, checksum: 9f30de20b2377b94837ba5ffe305debe (MD5) Previous issue date: 2016-07-26 / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPQ) / Fundação de Amparo à Pesquisa e ao Desenvolvimento Científico e Tecnológico do Maranhão (FAPEMA) / Cardiovascular diseases (CVDs) are considered as an important cause of morbidity and premature mortality worldwide. Rapid diagnosis of CVD is extremely important to ensure the survival of the patient. Myoglobin (Mb), for its low molecular weight is quickly released in the body, resulting in high sensitivity in order to be as valuable biomarker of acute myocardial infarction (AMI). Therefore, this study aims to develop an efficient platform, sensitive and stable for the immobilization of antibodies (Ab) myoglobin applicable to the monitoring of antigens (Ag) myoglobin using surface plasmon resonance (SPR). In this sense, the cyclic voltammetry, differential pulse voltammetry and impedance spectroscopy were used in selfassembled monolayers research (SAMs) simple and mixed acid 11-mercaptoundecanoic (MUA) and 3-mercaptopropionic acid (MPA). The mixed SAM MPA / MUA 3: 1 ratio showed low resistance to charge transfer and high surface coverage. In order to investigate the SAM capacity MPA / MUA opposite the locking Ac-MB were made comparative studies for the evaluation of the interaction of Ac-MB SAM MPA / MUA well as for SAM MPA / MUA modified polyamidoamine dendrimer of generation 5 (G5 PAMAM). Then, after choosing the more sensitive platform made up AC-Mb interaction studies with different concentrations of Ag-Mb (0,001; 0,5; 0,8; 1 and 500 µg.mL-1) through immunoassay in a "sandwich". The three-dimensional structure of the dendrimer PAMAM G5 favored amplification of SPR signal as grants most accessible area for the immobilization of antibody Mb. The sandwich immunoassay amplified the interaction signal Ac / Ag Mb, with significant advantages in sensitivity immunosensor. The results show that it was possible to develop an immunosensor capable of detecting low concentrations (0.00067 μg.mL-1) Ag-Mb. In this sense, the proposed system has great potential alternative to early diagnosis, simple and fast IAM. / As doenças cardiovasculares (DCVs) são consideradas como importante causa de morbidade e mortalidade prematura em todo o mundo. O diagnóstico rápido das DCVs é extremamente importante para garantir a sobrevivência do paciente. A mioglobina (Mb), por seu baixo peso molecular, é rapidamente liberada no organismo, resultando em elevada sensibilidade de forma a se constituir como precioso biomarcador de infarto agudo do miocárdio (IAM). Portanto, este trabalho tem por objetivo o desenvolvimento de uma plataforma eficiente, sensível e estável para a imobilização de anticorpos (Ac) de mioglobina aplicável ao monitoramento de antígenos (Ag) de mioglobina empregando ressonância de plásmons de superfície (SPR). Neste sentido, as técnicas de voltametria cíclica, voltametria de pulso diferencial e impedância eletroquímica foram empregadas na investigação de monocamadas auto-organizadas (SAMs) simples e mistas de ácido 11-mercaptoundecanóico (MUA) e ácido 3-mercaptopropiônico (MPA). A SAM mista MPA/MUA de proporção 3:1 apresentou baixa resistência à transferência de carga e elevada cobertura de superfície. Com o propósito de investigar a capacidade da SAM de MPA/MUA frente à imobilização de Ac-Mb foram feitos estudos comparativos para a avaliação da interação da do Ac-Mb com a SAM de MPA/MUA bem como para a SAM de MPA/MUA modificada com dendrímero de poliamidoamina de geração 5 (PAMAM G5). Em seguida, após a escolha da plataforma mais sensível, fez-se os estudos da interação do Ac-Mb com diferentes concentrações do Ag-Mb (0,001; 0,5; 0,8; 1 e 500 µg mL-1) através de imunoensaio em formato “sanduíche”. A estrutura tridimensional do dendrímero PAMAM G5 favoreceu a amplificação do sinal de SPR, pois concede uma maior área acessível para a imobilização do anticorpo da Mb. O imunoensaio em sanduíche amplificou o sinal de interação Ac/Ag da Mb, apresentando vantagens significativas na sensibilidade do imunossensor. Os resultados mostram que foi possível desenvolver um imunossensor capaz de detectar baixas concentrações (0,00067 µg.mL-1) do Ag-Mb. Neste sentido, o sistema proposto apresenta grande potencial alternativo de diagnóstico precoce, simples e rápido do IAM.

Infarto Agudo do Miocárdio

Mioglobina

Acute myocardial infarction

Myoglobin

Imunosensor and Self-Assembled Monolayer

Química Analítica

Mercaptobenzothiazole-on-Gold Biosensor Systems for Organophosphate and Carbamate Pesticide Compounds.

Somerse, Vernon Sydwill.

January 2007

<p>This study firstly reports the development, characterisation, and application of thick-film acetylcholinesterase (AChE) biosensors based on a gold electrode modified with a mercaptobenzothiazole (MBT) self-assembled monolayer and either poly(omethoxyaniline) (POMA) or poly(2,5-dimethoxyaniline) (PDMA) in the presence of polystyrene(4-sulphonic acid) (PSSA). The Au/MBT/POMA-PSSA/AChE and Au/MBT/PDMA-PSSA/AChE biosensors were then applied to successfully detect standard organophosphorous and carbamate pesticides in a 0.1 M phosphate buffer, 0.1 M KCl (pH 7.2) solution. Secondly, it reports the construction of the Au/MBT/PANI/AChE/PVAc thick-film biosensor for the determination of certain organophosphate and carbamate pesticide solutions in selected aqueous organic solvent solutions.</p>

Mercaptobenzothiazole

Polyaniline

Acetylcholinesterase

Self-Assembled Monolayer

Organophosphates

Carbamates

Pesticides

Organic Phase Amperometric Biosensor

Nanomolar Detection Limit

Voltammetry.

Herstellung mikrostrukturierter OTS-Monolagen auf Siliziumoxidoberflächen / Fabrication of microstructured OTS monolayers on silicon oxide surfaces

Belgardt, Christian

20 April 2012

Die Oberflächeneigenschaften eines Festkörpers können mit Hilfe dünner, durch Selbstorganisation gebildeter Molekülschichten aus Alkoxysilan-Molekülen gezielt verändert werden. Mikrostrukturierte selbstangeordnete Monolagen (SAM) können für die Anwendung in Bauelementen aus organischen Halbleitern von großem Interesse sein. Mikrokontaktdruck und Photolithographie sind zwei etablierte Verfahren, die jedoch Vorlagen und Masken zur Strukturierung benötigen. Dadurch entstehen bei häufig wechselnden Strukturen nicht zu vernachlässigende Rüstzeiten und Kosten. In der vorliegenden Arbeit wird die Erzeugung lateral strukturierter Schichten von Octadecyltrichlorsilan (OTS) auf Siliziumoxidoberflächen am konkreten Beispiel zweier alternativer, sowohl maskenloser als auch kontaktloser Methoden demonstriert: (i) Tintenstrahlverfahren als rein additive Strukturierung, und (ii) laserinduzierte, photothermische Desorption als subtraktive Strukturierung einer OTS-SAM . Für das Tintenstrahldruckverfahren wird an einem Kontaktwinkelmessgerät eine Methode zur Beobachtung und Auswertung der Tropfenverdampfung implementiert und ein Modell für kleine Tropfen entwickelt. Für die subtraktive Strukturierung werden an einem selbst entwickelten Versuchsaufbau die leistungs- und geschwindigkeitsabhängige Strukturbreite untersucht. Die Ergebnisse der beiden Technologieansätze werden verglichen. / With help of thin layers of alkoxysilane molecules formed by self-assembly, the surface properties of solids can be controlled. Microstructured self-assembled monolayers (SAMs) are interesting for applications in components based on organic semiconductors. Two established technologies for the structuring of molecular monolayers are microcontact printing and photolithography, for which templates and masks need to be structured. In this way, setting times and costs are high if variable patterns have to be structured. In this work, the fabrication of laterally structured monolayers from octadecyltrichlorosilane (OTS) is demonstrated for two examples of alternative, both template-free and maskless technologies: (i) inkjet as a purely additive method, and (ii) photothermal laser desorption as a subtractive structuring of an OTS-SAM. For the inkjet technology, a method for the observation and analysis of the evaporation of a droplet is implemented at a goniometer and a mathematical model for small inkjet droplets is extrapolated, For the subtractive laser structuring, the achievable patterning resolution is investigated as a function of laser intensity and scanning speed. The results of both technological approaches are compared.

selbstorganisierende Monoschicht

SAM

organische Monoschicht

OTS

Laserstrukturierung

Mikrostrukturierung

Self-assembled Monolayer

ddc:530

ddc:540

Silicium

Tintenstrahldruck

Microtubule Patterning and Manipulation Using Electrophoresis and Self-Assembled Monolayers

Noel, John

2009 May 1900

We developed new methods for controlling and studying microtubules (MTs) outside the complex workings of the living cell. Several surface treatments for preventing MT fouling on surfaces were analyzed and, for the first time, a self-assembled monolayer (SAM) was developed which prevented MT adsorption in the absence of passivating proteins. The morphology and thickness of the SAM was measured to determine the mechanism of formation and origin of the MT-resistant behavior. The SAM was integrated into electron beam lithography for patterning and manipulating MTs using electrophoresis. Reversible MT adsorption and patterning and alignment of single MTs were achieved. We characterized the mechanism for the MT migration under electric field with a focus on the electrodynamics of the flow cell and the forces acting on the MT, along with the time dependence of the process.

microtubule

kinesin

self-assembled monolayer

tubulin

self-assembly

protein patterning

nanolithography

bioNEMS

nanobiotechnology

bionanotechnology

cytoskeleton

Alzheimer's

motor protein

biofilament