Label-free, Direct Detection of Cocaine using an Aptamer in Conjunction with an Ultra-high Frequency Acoustic Wave Sensor

Bokhari, Syed Sumra

11 August 2011

This study embarks on exploiting the Thickness Shear Mode (TSM) acoustic wave sensor and the ElectroMagnetic Piezoelectric Acoustic Sensor (EMPAS) towards the study of aptamer-to-cocaine binding in a label-free direct approach. The high sensitivity and selectivity offered by the EMPAS in combination with alkyltrichlorosilane-based self-assembled monolayers proved superior towards the detection of cocaine. The most efficient method for the attachment of the aptamers onto the sensor surface to construct highly dense populations of the aptamer molecules with retained biomolecule activity is shown to be dependent on the composition of immobilizing solution and on the amount of spacing provided in the plane of the aptamer molecules. The distinct ligand-induced binding mechanisms and regeneration capabilities of the two anti-cocaine aptamers are monitored with the EMPAS. Utilizing this sensor to monitor cocaine-aptamer interactions will serve as the first piezoelectric aptasensor for the detection of a small molecule.

acoustic

biomedical engineering

cocaine

piezoelectric

biosensor

self assembled monolayers

thickness shear mode

anti-cocaine aptamer

aptasensor

TSM

EMPAS

aptamer immobilization optimization

label-free cocaine detection

0486

Charge Transport through Organized Organic Assemblies in Confined Geometries

Schuckman, Amanda Eileen

2011 May 1900

Organic molecules such as porphyrins and alkanethiols are currently being investigated for applications such as sensors, light-emitting diodes and single electron transistors. Porphyrins are stable, highly conjugated compounds and the choice of metal ion and substituents bound to the macrocycle as well as other effects such as chemical surrounding and cluster size modulate the electronic and photonic properties of the molecule. Porphyrins and their derivatives are relatively non-toxic and their very rich photo- and electro-chemistry, and small HOMO-LUMO gaps make them outstanding candidates for use in molecularly-enhanced electronic applications. For these studies, self-assembled tri-pyridyl porphyrin thiol derivatives have been fully characterized on Au(111) surfaces. A variety of surface characterization techniques such as Atomic Force Microscopy (AFM), Scanning Tunneling Microscopy (STM), FT-IR spectroscopy and X-ray photoelectron spectroscopy (XPS) have been implemented in order to obtain information regarding the attachment orientation based on the angle and physical height of the molecule, conductivity which is determined based on the apparent height and current-voltage (I-V) measurements of the molecule, conductance switching behavior due to conformational or other effects as well as the stability of the molecular ensembles. Specifically, the transport properties of free base and zinc coordinated tri-pyridyl porphyrin thiol molecular islands inserted into a dodecanethiol matrix on Au(111) were investigated using STM and cross-wire inelastic electron tunneling spectroscopy (IETS). The zinc porphyrin thiol islands observed by STM exhibited reversible bias induced switching at high surface coverage due to the formation of Coulomb islands of ca. 10 nm diameter driven by porphyrin aggregation. Low temperature measurements (~ 4 K) from crossed-wire junctions verified the appearance of a Coulomb staircase and blockade which was not observed for single molecules of this compound or for the analogous free base. Scanning probe lithography via nanografting has been implemented to directly assemble nanoscale patterns of zinc porphyrin thiols and 16-mercapotohexadecanoic acid on Au surfaces. Matrix effects during nanopatterning including solvent and background SAMs have been investigated and ultimately ~ 10 nm islands of zinc porphyrins have been fabricated which is the optimal size for the observed switching effect.

Nanoscale materials and devices

nanofabrication

chemistry of surfaces

molecular electronics

charge transport

porphyrin

alkanethiol

self-assembled monolayers (SAMs)

Au surfaces

scanning probe lithography

nanografting

STM

AFM

XPS

FT-IR

UV-Vis

current-voltage (I-V) spectroscopy

IETS

DFT calculations

Structure, Stability And Interfacial Studies Of Self Assembled Monolayers On Gold And Silver Surfaces

Suriyanarayanan, Subramanian

11 1900

Nanostructured materials play a vital role in almost all aspects of science and technology in the 21st century. The materials include nanoparticles, nanofilms, biological membranes etc. whose physicochemical properties are size-dependent. Thin films have wide range of applications in various branches of science. One of the efficient methods to form miniaturized structures for device applications is to fabricate nanostructured films on different substrates. Surfactant assembly on metallic and non-metallic surfaces based on self assembly and Langmuir-Blodgett technique offers a unique way to form thin films at molecular levels. The process of formation of unimolecular assemblies gives the flexibility of tuning the properties of underlying substrates for various applications including wetting characteristics, lubrication, passivation, mimicking biological phenomena etc. Towards this direction, self assembled monolayers (SAMs) of alkanethiols on gold and silver surfaces have been studied comprehensively for the past two decades. The reported literature on short chain length thiol-based monolayers is however, limited since the formation using conventional methods yield poor quality monolayers. The short chain length monolayers are useful in various applications like tribology, layer-by-layer assemblies, biosensors etc. Hence, it is essential to reproducibly form SAMs of various chain lengths and understand their properties. The present study is related to the formation of SAMs of alkanethiols and diselenides on gold and silver surfaces to form ordered and well-oriented monolayers. Monolayers of varying chain lengths (CH3(CH2)nSH where n = 3, 5, 7, 9, 11, 15) have been formed on gold and silver surfaces using different methods, (1) adsorption from neat thiols; (2) adsorption under electrochemical control and (3) adsorption from alcoholic solutions of the thiols. The characteristics features of the SAMs have been followed based on three different aspects, (i) structure and stability of the methylene groups (ii) interfacial characteristics involving the end group and the solvent and (iii) metal-head group interactions. The structure and stability of the monolayers have been followed based on vibrational spectroscopy and electrochemistry under different environment including thermal perturbations. The stability of the SAMs at different temperatures and subsequent changes associated with the orientation / packing has been monitored both in the dry state using reflection absorption infrared spectroscopy (RAIRS) and under electrochemical conditions using cyclic voltammetry and impedance analysis. Monolayers adsorbed from neat thiols show superior quality in terms of stability and structural arrangement. Short chain thiols with n = 3, 5, 7 show substantial stability when the adsorption is carried out from neat thiols. Figure 1 shows the RAIR spectra of hexanethiol SAM on gold adsorbed by three different procedures. Monolayers adsorbed under potential control behave very similar to the monolayers adsorbed from neat thiol as for as stability and structural orientation are concerned. Monolayers prepared using conventional methods of adsorption from alcoholic solutions are of inferior quality in terms of stability and arrangement especially for the short chain lengths. This is likely to be due to the fact that monolayers prepared using conventional methods may have intercalated solvent molecules within the monolayer assembly that degrade the integrity of the SAM leading to poor quality. The blocking characteristics of the monolayers for diffusing redox couple have been followed by determining the heterogeneous electron transfer rate constant using electrochemical techniques. The spectroscopic data and the electrochemical data follow similar trend indicating the superior quality of monolayer adsorbed from neat thiol in terms of stability as compared to conventionally prepared monolayers. Figure 1. RAIR spectra of hexanethiol-SAMs on Au(111) surface at 25C. The monolayers are formed by adsorption (A) from neat thiol (B) under potential control and (C) from alcoholic solution of the thiol. Wavenumber (cm-1) The interfacial characteristics of the monolayers (effect of end group functionality on the solvent properties) have been monitored on the basis of capacitance, contact angle and atomic force microscopy- measurements. Well-organized monolayers behave like good capacitors with relatively low values of double layer capacitance in presence of a liquid electrolyte as compared to the expected values based on known thickness and dielectric constant of the SAMs. This behavior can be explained by invoking the depletion of water density at the methyl terminated SAM-water interface where the solvent properties are different from that of bulk. Variation of one such property, dielectric constant, has been mapped using force measurement based on AFM. Dielectric constant of water changes from the bulk value of 78 to a low value as given in figure 2. This cross-over occurs within a span of 1-3 nm depending on the chain length of the thiol. Of the three procedures used, the ones based on the use of neat thiol and electrochemical adsorption result in well-oriented alkyl chains followed by highly oriented methyl terminal groups. This is responsible for the high hydrophobic nature of the interface and the subsequent observation of interfacial water properties. The SAMs prepared from ethanol fail to show the hydrophobic effects. Hydrophilic monolayers (NH2 terminated monolayers) fail to show depletion of water density at the interface indicating the importance of end group functionality in altering the interfacial characteristics of the monolayer. Figure 2. Spatial variation of dielectric permittivity of water at the hexanethiol SAM - water interface. The SAM is formed on gold (111) surface; (a) from ethanolic solution of the thiol (b) under electrochemical control (c) from neat thiol. The origin on the x-axis is the position of the methyl groups of SAM and the direction towards right side is in to the bulk water. The well-oriented SAMs have been used to follow the adsorption of a biopolymer. Zein protein is a prolamine of maize and is projected to be a biocompatible coating for food products and food containers. Hence, it is essential to prepare impermeable coatings of zein with different surface wetting properties. The adsorption of zein on highly ordered SAMs with hydrophobic or hydrophilic end group functionality has been studied and the orientation of the protein followed using spectroscopy, microscopy and electrochemistry. It is observed that zein shows higher affinity towards hydrophilic than hydrophobic surfaces with small foot print size on the Figure 3. Orientation of zein protein on hydrophilic and hydrophobic SAM as deciphered from the experimental data. hydrophilic surface resulting in large surface coverage. Figure 3 shows the schematics of zein deposits on hydrophilic and hydrophobic SAM surfaces determined based on spectroscopy, quartz crystal microbalance and electrochemical studies. The AFM shows cylindrical, rod-like and disc-like features of zein on hydrophilic surfaces that form the base units for the growth of cylindrical structures of zein. The published literature on the studies on SAMs on silver surfaces reveals that there is no consensus on the structure of the monolayers on silver. This may be due to the difficulty in getting pristine oxide-free surfaces in the case of silver and this is likely to affect the monolayer quality. Hence, it is decided to prepare SAMs of alkanethiols on silver and study their characteristics. Subtle differences between the monolayers adsorbed from neat thiol and from alcoholic solutions of thiols have been observed in terms of stability and permeability. Atomic force microscopic studies illustrate the presence of depletion of water at the SAM-aqueous interface. Diselenide-based monolayers have been formed on gold to understand the head group-substrate interactions on the monolayer properties. The disorder observed on short chain diselenide-based monolayers formed from alcoholic solutions can be eliminated by adsorption from neat compounds as described for the thiols. A preliminary account on the stability of SAMs under hydrodynamic conditions has been given based on rotating disc electrode voltammetry. It is observed that the SAMs get well-ordered when the electrode is rotated at a fast rate leading to the hypothesis that the monolayer assembly gets annealed as a function of the rotation rate. The thesis is planned as follows: Chapter 1 gives general introduction about organic thin films with particular emphasis on self-assembled monolayers on gold and silver, their characteristics in terms of stability, interfacial properties and adsorption behaviour. Chapter 2 deals with the experimental methodologies and schematics used for the preparation and characterization of the monolayers. Chapter 3 is on the contribution of alkyl spacer to the stability of the monolayers studied using spectroscopy and electrochemistry. Chapter 4 deals with the interfacial properties of the SAMs in presence of aqueous medium. In order to emphasize the importance of the terminal functional groups, adsorption of zein has been demonstrated on surfaces of controlled wettablity. Chapter 5 explains the formation and stability of monolayers of short and long chain alkyl diselenides on gold surfaces. Chapter 6 gives the structural and interfacial characteristics of alkanethiol monolayers on silver surfaces. The stability and subsequent changes of alkanethiol monolayers under hydrodynamic conditions has been discussed in the appendix section.(For fig pl refer pdf file.)

Gold - Metallography

Silver - Metallography

Monolayers

Organic Thin Films

Alkanethiol Monolayers

Alkyl Diselenide Monolayers

Electrochemistry

Monolayer Assembly

Zein Protein

Dialkyldiselenides

Self Assembled Monolayers (SAMs)

Zein Flms

Dewetting Phenomenon

Self Assembled Monolayer (SAM)

Inorganic Chemistry

Spectroelectrochemistry of self-assembled monolayers of 2- and 4-mercaptopyridines

Hassan, Nazly

10 July 2007

Die Elektrochemie und die Spektroelektrochemie von selbst-organisiererten Monoschichten (selfassembled monolayers, SAMs) gebildet aus 2-Mercaptopyridin (2MP) und 4-Mercaptopyridin (4MP) wurden an polykristallinen Goldelektroden in wässrigen Elektrolytlösungen untersucht. Folgende Untersuchungsmethoden wurden angewandt: zyklische Voltammetrie, elektrochemische Impedanzmessungen (EIM) und oberflächenverstärkte Raman Streuung (surface-enhanced Raman scattering, SERS). Die elektrochemischen Untersuchungen von 2MP und 4MP in wässriger saurer Lösung (0.5 M H2SO4) zeigten, dass 2MP stärker adsorbiert wird als 4MP aufgrund der Bildung eines S-Au-N Chelates, wobei die S-Au-Interaktionen bei 4MP stärker sind. Die Bildung eines Chelates im Falle von 2MP verringert die Wahrscheinlichkeit der Bildung eines Dimers. In sauren Lösungen wird das N-Atom von 2MP protoniert, was zu einer schwächeren Bindung von 2MP-Molekülen zur Substratoberfläche führt. Die Ergebnisse der SERS-Untersuchungen stimmen mit den Resultaten aus der zyklischen Voltammetrie überein. Man erhält eine Au-S-Streckschwingungsbande für 2MP zwischen 225 bis 250 cm-1 bei Abscheidung aus wässriger oder saurer Lösung und für 4MP bei ca. 263 cm-1 in beiden Lösungen. Die SERS-Experimente ergaben eine senkrechte Orientierung zur Goldoberfläche sowohl für 2MP als auch für 4MP. Die Thion-Thiol-Tautomerie von 2- Mercaptopyridinen wurde ebenfalls in Betracht gezogen. Die Unter- und Überpotentialabscheidung von Kupfer auf einer polykristallinen Goldelektrode in wässriger 0.1 M Schwefelsäure in An- und Abwesenheit von SAMs von 2- und 4- Mercaptopyridin wurde mit zyklischer Voltammetrie untersucht. Es zeigte sich, daß bei Vorhandensein der SAMs die Elektrodeposition von Kupfer verhindert wird, was auf starke Wechselwirkungskräfte zwischen dem Adsorbat (MP) und der Goldoberfläche zurückzuführen ist. 2MP zeigt eine grössere Inhibierung, was höchstwahrscheinlich auf die Bildung der Chelatstruktur zurückzuführen ist. Es wurden ebenso Untersuchungen zum Einfluss von 2MP und 4MP auf die abgeschiedene Kupfermonolage auf der Goldelektrode durchgeführt. Es zeigte sich, daß die Kupfermonolage teilweise durch 2MP oder 4MP ersetzt wird. Die Elektronenaustauschgeschwindigkeit für das Fe2+/Fe3+-Redoxsystem in An- und Abwesenheit von 2MP- oder 4MP-Monolagen wurde mit zyklischer Voltammetrie und elektrochemischen Impedanzmessungen (EIM) untersucht. Es stellte sich heraus, dass der Elektronenaustausch höchstwahrscheinlich über Defektstellen in der Monolage (Pinholes) erfolgt. In einer wässrigen Lösung verringert 4MP den Elektronenaustausch stärker als 2MP. Da die Packungsdichte bei 4MP größer ist als bei 2MP ist wahrscheinlich auch die Zahl der Pinholes geringer in der 4MP-Monolage. In saurer Lösung liegen die N-Atome protoniert vor. Man kann davon ausgehen, dass in saurer Lösung zwei Prozesse gleichzeitig ablaufen, die für den Elektronenaustausch entscheidend sind. Erstens kommt es zu einer Abstoßung zwischen der positiv geladenen Monolage und den positiv geladenen Redoxionen. Und zweitens erfolgt eine Abstoßung zwischen den positiv geladenen Molekülen der SAMs, was zu einer geringeren Packungsdichte führt. Der Ladungsaustausch wird dominiert durch den zweiten Effekt. Mit Hilfe von EIM wurden die Elektronenaustauschgeschwindigkeit und der Bedeckungsgrad bestimmt. Die korrosionshemmende Wirkung von 2MP und 4MP auf Stahl in 3.5 % wässriger NaCl-Lösung wurde mit Hilfe der EIM untersucht. 2MP zeigte eine grössere Hemmung als 4MP. / The electrochemistry and spectroelectrochemistry of the self-assembled monolayers (SAMs) prepared of 2-mercaptopyridine (2MP) and 4-mercaptopyridine (4MP) dissolved either in water or 0.1 M H2SO4 have been investigated at polycrystalline gold electrodes in aqueous electrolyte solutions using cyclic voltammetry, electrochemical impedance measurements (EIM) and surface enhanced Raman spectroscopy (SERS). Electrochemical studies of 2MP and 4MP monolayers in aqueous acidic solution (0.5 M H2SO4) suggest that 2MP is adsorbed more strongly than 4MP due to the formation of S-Au-N chelate. However, the S-Au bond was found to be stronger in 4MP as compared with 2MP. The formation of the chelate in case of 2MP diminishes the probability of dimer formation. In the acidic solvent, the N-atom of 2MP molecule will be protonated leading to a weaker interaction of 2MP molecules with the substrate surface. The SERS results are in good agreement with the cyclic voltammetry results. The Au-S stretching band was obtained in the region from 215 to 245 cm-1 for 2MP deposited from water and acidic solvent and around 263 cm-1 for 4MP in both solvents. The SERS measurements showed also a perpendicular orientation of both 2MP and 4MP on the gold surface. In explaining the SERS results, the thione-thiol tautomerisations of the mercaptopyridines were also taken into consideration. The under- and overpotential deposition of copper on a polycrystalline gold electrode in aqueous 0.1 M sulfuric acid in the presence and in the absence of SAMs of 2- and 4-mercaptopyridine has been studied using cyclic voltammetry. In general, the presence of these SAMs has been found to inhibit the electrodeposition process of copper, suggesting very strong interactions between these adsorbates and the Au surface. 2MP shows a higher degree of inhibition, which is due to a stronger interaction probably due to the formation of the chelate structure. Studies have also been made of the influence of mercaptopyridines SAMs on the copper monolayer electrodeposited on the gold surface. The copper adlayer was found to be partially displaced by 2MP and 4MP monolayers. The rate of electron transfer for the Fe3+/2+ redox system on the gold electrode has been probed in the absence and presence of 2MP and 4MP monolayers by cyclic voltammetry and electrochemical impedance measurements (EIM). The charge transfer process was suggested to occur through the defects (pinholes) in the monolayer. In case of aqueous solvent 4MP decreases the electron transfer reaction stronger than 2MP. Since the packing density for 4MP is higher than that of 2MP the number of pinholes might be lower in 4MP monolayer. In acidic solvent the N-atoms of the mercaptopyridines will be protonated. It is proposed that two effects, which exist at the same time, are responsible for the electron transfer process in acidic solution. First, there will be a repulsive interaction between the positively charged monolayer and the positively charged redox probe. Second, there is a repulsion among the positively charged monolayer molecules that results in a less compact monolayer. The charge transfer is dominated due to the latter effect. With the EIM the rate of electron transfer and the surface coverage were determined. 2MP and 4MP were examined as steel corrosion inhibitors in 3.5% aqueous NaCl solution using EIM. 2MP shows higher inhibition efficiency than 4MP.

2- und 4-Mercaptopyridin

Corrosion inhibition

Cyclic Voltammetry

Electrochemical impedance measurements

Electrochemistry

Electron transfer

Self-assembled monolayers

Spectroelectrochemistry

Surface enhanced Raman spectroscopy

Zyklische Voltmmetrie

selbst-organisierende Monoschichten

ddc:540

Elektrochemie

Elektronentransfer

Korrosionsinhibierung

Spektroelektrochemie

Adsorbuotų ant metalo paviršiaus monosluoksnių su piridinio funkcine grupe struktūros ir sąveikos su tirpalo komponentais tyrimas virpesinės spektroskopijos metodais / Vibrational spectroscopic study on the structure and interaction with solution components of monolayers with pyridinium functional group adsorbed on metal surface

Matulaitienė, Ieva

06 January 2014

Savitvarkiai monosluoksniai suteikia metalų paviršiams norimas savybes ir plačiai taikomi elektronų pernašos tyrimuose, konstruojant (bio)jutiklius, biotechnologinius bei fotoelektroninius procesus. Teigiamo krūvio monosluoksniai naudojami kuriant anijonų jutiklius ir (bio)technologinius procesus su adsorbuotomis neigiamo krūvio makromolekulėmis. Darbe buvo susintetinta bifunkcinė molekulė su galinėmis tiolio ir piridinio grupėmis, suformuotas monosluoksnis ir ištirtos jo struktūrinės ir funkcinės savybės. Pagrindiniai darbo tikslai buvo ištirti N-(6-merkapto)heksilpiridinio (MHP) adsorbuoto ant Au ir Ag elektrodų struktūrą ir nustatyti monosluoksnio sąveikos su neorganiniais anijonais, dodecilsulfato anijonu ir grafeno oksidu dėsningumus. Naudojant paviršiaus sustiprintos Ramano spektroskopijos, kvantų chemijos skaičiavimo ir izotopinio pakeitimo metodus nustatyti MHP struktūros ir orientacijos elektrodo atžvilgiu Ramano sklaidos žymenys. Tiriant juostų intensyvumo priklausomybes nuo potencialo ir žadinančios spinduliuotės bangos ilgio parodyta, kad Au/MHP sistemoje pasireiškia krūvio pernešimo Ramano spektrų stiprinimo mechanizmas. Nustatyta, kad adsorbuotų neorganinių anijonų pilnai simetrinio virpesio dažnis sumažėja lyginant su tirpalo spektru ir tas pokytis koreliuoja su Gibso dehidracijos energija. Parodyta, kad MHP pritraukia grafeno oksidą. Nustatyta, kad grafeno oksido C-C ryšio ilgis ir elektroninė struktūra gali būti keičiama, keičiant potencialą. / Self-assembled monolayers provide possibility of changing metal surface properties in controllable manner and are widely used in studies of electron transfer, construction of (bio)sensors, and biotechnological and photoelectronic processes. Positively charged monolayers are valuable in development of sensors for anions and (bio)technological processes with adsorbed negatively charged macromolecules. In this work the structural and functional properties of monolayer formed from synthesized molecule with terminal thiol and pyridinium groups have been studied. The main tasks were to assess the structure of N-(6-mercapto)hexylpyridinium (MHP) on Ag and Au electrodes, and to determine the peculiarities of interaction with inorganic anions, dodecylsulfate, and graphene oxide. Based on surface enhanced Raman spectroscopy (SERS), quantum chemical calculations, and isotopic substitution studies, the Raman marker bands for structure and orientation of MHP have been evaluated. Dependence of SERS intensity on potential and excitation wavelength has revealed the operation of charge transfer Raman enhancement mechanism. It was found that the frequency of symmetric stretching mode of adsorbed ions decreases comparing with solution value and the extent of the shift correlates with the Gibbs dehydration energy. Adsorption of graphene oxide at MHP monolayer has been demonstrated. The electronic structure and length of C-C bonds of graphene oxide was found to be altered by the potential.

Chemistry

Savitvarkiai monosluoksniai

N-(6-merkapto)heksilpiridinis (MHP)

Grafeno oksidas

Self-assembled monolayers

N-(6-mercapto)hexylpyridinium (MHP)

Graphene oxide

Vibrational spectroscopic study on the structure and interaction with solution components of monolayers with pyridinium functional group adsorbed on metal surface / Adsorbuotų ant metalo paviršiaus monosluoksnių su piridinio funkcine grupe struktūros ir sąveikos su tirpalo komponentais tyrimas virpesinės spektroskopijos metodais

Matulaitienė, Ieva

06 January 2014

Self-assembled monolayers provide possibility of changing metal surface properties in controllable manner and are widely used in studies of electron transfer, construction of (bio)sensors, and biotechnological and photoelectronic processes. Positively charged monolayers are valuable in development of sensors for anions and (bio)technological processes with adsorbed negatively charged macromolecules. In this work the structural and functional properties of monolayer formed from synthesized molecule with terminal thiol and pyridinium groups have been studied. The main tasks were to assess the structure of N-(6-mercapto)hexylpyridinium (MHP) on Ag and Au electrodes, and to determine the peculiarities of interaction with inorganic anions, dodecylsulfate, and graphene oxide. Based on surface enhanced Raman spectroscopy (SERS), quantum chemical calculations, and isotopic substitution studies, the Raman marker bands for structure and orientation of MHP have been evaluated. Dependence of SERS intensity on potential and excitation wavelength has revealed the operation of charge transfer Raman enhancement mechanism. It was found that the frequency of symmetric stretching mode of adsorbed ions decreases comparing with solution value and the extent of the shift correlates with the Gibbs dehydration energy. Adsorption of graphene oxide at MHP monolayer has been demonstrated. The electronic structure and length of C-C bonds of graphene oxide was found to be altered by the potential. / Savitvarkiai monosluoksniai suteikia metalų paviršiams norimas savybes ir plačiai taikomi elektronų pernašos tyrimuose, konstruojant (bio)jutiklius, biotechnologinius bei fotoelektroninius procesus. Teigiamo krūvio monosluoksniai naudojami kuriant anijonų jutiklius ir (bio)technologinius procesus su adsorbuotomis neigiamo krūvio makromolekulėmis. Darbe buvo susintetinta bifunkcinė molekulė su galinėmis tiolio ir piridinio grupėmis, suformuotas monosluoksnis ir ištirtos jo struktūrinės ir funkcinės savybės. Pagrindiniai darbo tikslai buvo ištirti N-(6-merkapto)heksilpiridinio (MHP) adsorbuoto ant Au ir Ag elektrodų struktūrą ir nustatyti monosluoksnio sąveikos su neorganiniais anijonais, dodecilsulfato anijonu ir grafeno oksidu dėsningumus. Naudojant paviršiaus sustiprintos Ramano spektroskopijos, kvantų chemijos skaičiavimo ir izotopinio pakeitimo metodus nustatyti MHP struktūros ir orientacijos elektrodo atžvilgiu Ramano sklaidos žymenys. Tiriant juostų intensyvumo priklausomybes nuo potencialo ir žadinančios spinduliuotės bangos ilgio parodyta, kad Au/MHP sistemoje pasireiškia krūvio pernešimo Ramano spektrų stiprinimo mechanizmas. Nustatyta, kad adsorbuotų neorganinių anijonų pilnai simetrinio virpesio dažnis sumažėja lyginant su tirpalo spektru ir tas pokytis koreliuoja su Gibso dehidracijos energija. Parodyta, kad MHP pritraukia grafeno oksidą. Nustatyta, kad grafeno oksido CC ryšio ilgis ir elektroninė struktūra gali būti keičiama, keičiant potencialą.

Chemistry

Self-assembled monolayers

N-(6-mercapto)hexylpyridinium (MHP)

Graphene oxide

Savitvarkiai monosluoksniai

N-(6-merkapto)heksilpiridinio (MHP)

Grafeno oksidas

Propriétés des monocouches auto-assemblées du liquide ionique 1-(12-mercaptododécyl)-3-méthylimidazolium

Ratel, Mathieu

08 1900

Les propriétés d'une nouvelle classe de chimie de surface basée sur les monocouches auto-assemblées de liquides ioniques (ILs-SAMs), ont été étudiées pour une utilisation dans la construction de biocapteurs basés sur la résonance des plasmons de surface (SPR). Les biocapteurs sont utiles pour détecter des biomolécules spécifiques dans une matrice biologique complexe. Cependant, le signal analytique de la biomolécule spécifique peut être masqué par l’adsorption non spécifique de la matrice biologique, produisant une réponse faussement positive. Par ailleurs, l'activité des récepteurs moléculaires est souvent réduite par des techniques d'immobilisation chimique. Ainsi, il est essentiel de déterminer une surface idéale pour la préparation de biocapteurs. Les liquides ioniques sont bien connus pour favoriser l'activité des récepteurs moléculaires et cette étude enquête si cette propriété importante peut se traduire sur des capteurs SPR. Différents liquides ioniques ont été utilisés pour former des monocouches auto-assemblées sur une surface d'or. Les ILs-SAMs sont tous basés sur les sels de mercapto-(chaîne alkyle)nCH2-méthylimidazolium avec différentes chaînes alkyles (n = 3, 6, 9, 12) et différents contre-anions (Br-, BF4-, PF6-, NTf2-). Des études cinétiques de l'adsorption non spécifique de sérum bovin ont été réalisées sur des capteurs SPR avec un instrument construit sur mesure, basé sur l'interrogation des longueurs d’ondes SPR sur un prisme d’inversion d’image (dove). Par la suite, l’anti-IgG de chèvre sélective à l’IgG humain a été utilisé en tant que modèle pour la confection de biocapteurs sur les ILs-SAMs. En solution, il est possible d’effectuer des échanges du contre-anion des liquides ioniques pour un contre-anion de plus en plus hydrophobe. Cependant, l’échange inverse, soit vers des anions de plus en plus hydrophile, s’avère impossible. Toutefois, il a été observé par les travaux présentés dans ce mémoire, que les liquides ioniques immobilisés sur une surface d'or ont la capacité d'échanger leurs contre-anions réversiblement, procurant une méthode simple de moduler leurs propriétés physico-chimiques. Ce phénomène a été observé par la mesure d’angles de contacts et par les techniques spectroscopiques de l’infrarouge moyen (mid-IR), des photoélectrons de rayon-X (XPS) et par la diffusion Raman exaltée par les surfaces (SERS) ii ainsi que par la spectrométrie de masse (MS). La connaissance des propriétés d’échange d’anion est importante pour prédire le comportement de ces surfaces de liquides ioniques dans les tampons et fluides biologiques. / The properties of a novel class of surface chemistry based on ionic liquid self-assembled monolayers (IL-SAM) were investigated for use with surface plasmon resonance (SPR) biosensors. Biosensors are useful to detect specific biomolecules in a complex biological matrix. However, the analytical signal of a specific biomolecule can be masked by nonspecific adsorption of the biological matrix, resulting in a false positive response. Moreover, the activity of molecular receptors is often reduced by current immobilization chemistry. Thus, it is essential to determine an ideal surface for the preparation of biosensors. Ionic liquids are well-known to promote the activity of molecular receptors and this study investigates if this important property translates to SPR sensors. Different ionic liquids were used to form self-assembled monolayers on a gold surface. IL-SAM were based on mercapto(alkyl chain)n methylimidazolium salts with different alkyl chain (n = 3, 6, 9, 12) and counter anions (Br-, BF4-, PF6-, NTf2-). Kinetic studies of the nonspecific adsorption of bovine serum were carried on SPR sensors with a custom built instrument based on wavelength interrogation SPR on a dove prism. Thereafter, anti-goat IgG selective to human IgG was used as a model for biosensor employing ILs-SAM surface chemistry. Exchange of counter anion of ionic liquids was believed impossible for most hydrophobic counter anions. However, it was observed that ionic liquids immobilized on a gold surface have the ability to exchange their counter anions reversibly, allowing a simple method to modulate their physico-chemical properties. This phenomenon was observed by contact angle technique and by attenuated total reflectance mid-infrared (ATR mid-IR), X-ray photoelectron spectroscopy (XPS), surface enhanced raman spectroscopy (SERS) and mass spectrometry (MS). Better understanding of the anion exchange properties is crucial in predicting the behaviour of IL-SAM in presence of biological buffers and fluids.

Liquide ionique

Ionic liquid

monocouche auto-assemblée

self-assembled monolayers

chimie de surface

surface chemistry

adsorption non spécifique

non-specific adsorption

biocapteur

biosensor

résonance des plasmons de surface

surface plasmon resonance

Patterned polymer brushes

Chen, Tao, Amin, Ihsan, Jordan, Rainer

09 April 2014

This critical review summarizes recent developments in the fabrication of patterned polymer brushes. As top-down lithography reaches the length scale of a single macromolecule, the combination with the bottom-up synthesis of polymer brushes by surface-initiated polymerization becomes one main avenue to design new materials for nanotechnology. Recent developments in surface-initiated polymerizations are highlighted along with diverse strategies to create patterned polymer brushes on all length scales based on irradiation (photo- and interference lithography, electron-beam lithography), mechanical contact (scanning probe lithography, soft lithography, nanoimprinting lithography) and on surface forces (capillary force lithography, colloidal lithography, Langmuir–Blodgett lithography) (116 references). / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Selbstorganisierende Monoschicht

Polymerbürsten

Polymerisation

Polyreaktion

Nanolithographie

Lithographie

dünne Schichten

self-assembled monolayers

surface-initiated polymerization

dip-pen nanolithography

opening metathesis polymerization

langmuir-blodgett lithography

scanning-probe lithography

nanometer-scale

radical polymerization

chemical lithography

thin-films

ddc:540

rvk:VA 1120

Electrochemical immunosensor based on cyclodextrin supramolecular interactions for the detection of human chorionic gonadotropin

Wilson, Lindsay

January 2012

>Magister Scientiae - MSc / Glucose oxidase (GOx) and horseradish peroxidase (HRP) are important enzymes for the development of amperometric enzyme linked immunosensors. The selectivity of each enzyme towards its analyte deepens its importance in determining the sensitivity of the resultant immunosensor. In designing immunosensors that have customized transducer surfaces, the incorporation with FAD and iron based enzymes ensures that electron kinetics remains optimal for electrochemical measurement. Various different immobilization strategies are used to produce response signals directly proportional to the concentration of analyte with minimal interferences. The combination of self-assembled monolayers and supramolecular chemistry affords stability and simplicity in immunosensor design. In this work, two electrochemical strategies for the detection of human chorionic gonadotropin(hCG) is presented. This involves the modification of a gold surface with a thiolated β-cyclodextrin epichlorohydrin polymer (βCDPSH) to form a supramolecular inclusion complex with ferrocene (Fc)-functionalised carboxymethyl cellulose polymer (CMC). Cyclic voltammetry indicated that ferrocene is in close proximity to the electrode surface due to the supramolecular complex formed with βCDPSH. Furthermore, strategy (a) for the detection of hCG used α-antihCG labelled (HRP) as reporter conjugate. Strategy (b) maintained the CMC bifunctionalised with Fc and recognition antibody for hCG hormone. However, the system was functionalised with a HRP enzyme and detection is done by using GOx reporter conjugates for in situ production of hydrogen peroxide. The reduction of H2O2 was used for the amperometric detection of hCG by applying a potential of 200 mV. The sensitivity and limit of detection of both strategies were calculated from calibration plots. For strategy (a) the LOD was found to be 3.7283 ng/mL corresponding to 33.56 mIU/mL and a sensitivity of 0.0914 nA ng-1 mL-1. The corresponding values for strategy (b) are 700 pg/mL (6.3 mIU/mL) and 0.94 nA ng-1 mL-1.

Biosensor

Immunosensor

β-Cyclodextrin

β-Cyclodextrin epichlorohydrin polymer

Ferrocene

Carboxymethyl cellulose

Supramolecular

Host-guest

Self-assembled monolayers

Bienzymatic

Co-operative effect

Cyclic voltammetry

Square wave voltammetry

Enzyme linked immunosorbent assay

Amperometric

Human chorionic gonadotropin

Espectroscopia de capacitância eletroquímica aplicada ao estudo de acúmulo e transporte de carga em sistemas orgânicos moleculares eletroativos / Electrochemical capacitance spectroscopy applied to the study of the charging and transport in molecular electroactive organic systems

Benites, Tiago Azevedo [UNESP]

01 September 2017

Submitted by TIAGO AZEVEDO BENITES null (tiagoazb@gmail.com) on 2017-10-09T17:59:58Z No. of bitstreams: 1 Tese Tiago.pdf: 5384805 bytes, checksum: 86cf0d44920d96e8154badd25a07c674 (MD5) / Approved for entry into archive by Monique Sasaki (sayumi_sasaki@hotmail.com) on 2017-10-09T19:38:54Z (GMT) No. of bitstreams: 1 benites_ta_dr_araiq.pdf: 5384805 bytes, checksum: 86cf0d44920d96e8154badd25a07c674 (MD5) / Made available in DSpace on 2017-10-09T19:38:54Z (GMT). No. of bitstreams: 1 benites_ta_dr_araiq.pdf: 5384805 bytes, checksum: 86cf0d44920d96e8154badd25a07c674 (MD5) Previous issue date: 2017-09-01 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Dentro da eletroquímica, o estudo de reações de transferência de elétrons (TE) pode ser explorado por meio de eletrodos de ouro modificados com monocamadas auto-organizadas (SAMs), visto que elas são capazes de modificar as propriedades físico-químicas superficiais e controlar a cinética de TE. Este trabalho investigou as reações de TE em eletrodos de ouro modificados com SAMs eletroativas. Especificamente, foi estudado a cinética de TE em SAMs de 11-ferrocenil-undecanotiol sobre superfícies de ouro, por meio de análise de voltametria cíclica e espectroscopia de impedância/capacitância eletroquímica (EIE/ECE). Por meio dessas técnicas foi possível estimar variáveis como a densidade de estados redox (aproximadamente 3,4×〖10〗^14 estados cm-2 próximos aos valores reportados na literatura), de capacitância eletroquímica ou redox (137(±9) μF 〖cm〗^(-2)), a constante cinética de transferência de elétrons em 1,05×〖10〗^4 s^(-1) similares às reportadas por Creager, além da estimativa da energia de reorganização de Marcus (λ) em torno de 1,0 eV, valores similares a outros já previamente estimados para funcionalizações de SAMs eletroativas. Expandiram-se essas análises por meio da imobilização de complexos eletroativos de Bis(2,2′-bipiridina)-(5-Aminofenantrolina)rutênio bis(hexafluorofosfato) sobre superfícies de Au, por síntese orgânica com tióis ancoradores de diferentes cadeias (cisteína e 3-ácido carboxílico-6-mercaptopiridina), utilizando reação de ativação com DIC/HOBt em acetonitrila. Neste caso, obteve-se uma densidade de estados redox de cerca de 8,9×〖10〗^14 estados cm-2 e 9,3×〖10〗^14 estados cm-2, além de uma constante cinética de 2,6×〖10〗^3 s^(-1) e 1,07×〖10〗^3 s^(-1) para as abordagens I (3-ácido carboxílico-6-mercaptopiridina) e II (Cisteína) respectivamente. Resultados sugeriram uma maior capacidade das moléculas ancoradoras compostas de anel piridinico (abordagem I) na condução de carga quando comparados com a abordagem II, o que foi posteriormente confirmado por análise de condutância em que a abordagem I apresentou G=6×〖10〗^(-3) S contra G=2×〖10〗^(-3) S da abordagem II. Este trabalho apresentou uma abordagem teórico-experimental que relaciona as componentes físico-químicas quânticas através de uma nova perspectiva baseada nos estudos teóricos de Marcus-Buttiker e em análises experimentais centradas na capacitância eletroquímica. / In electrochemistry, the study of electron transfer reactions (TE) can be explored using Au electrodes modified with self-assembled monolayers (SAMs), since they are able to modify the physicochemical properties of electrodes surface and control the TE kinetics. This work investigated TE reactions on Au electrodes modified with SAMs. Specifically, TE kinetics were studied using 11-ferrocenyl-undecanethiol SAMs on Au surfaces by means of cyclic voltammetry and electrochemical impedance/capacitance spectroscopy (EIS/ECS) analysis. By means of these techniques, it was possible to estimate variables such as the density of redox states (approximately 3.4 × 1014 states per cm-2 , near the reported results in the literature), electrochemical or redox capacitance (137(±9) �� ��−2 ), the kinetic electron transfer constant at 1.05 × 104 � −1 similar to those reported by Creager, in addition to the estimation of the Marcus´ reorganization energy (�) of around 1.0 eV, value similar to others already previously estimated for functionalization of electroactive SAMs. These analyzes were expanded by immobilization of Bis(2,2'-bipyridine)-(5-Aminophenanthroline)ruthenium-bis (hexafluorophosphate) electroactive complexes on Au surfaces by organic synthesis with anionic thiols of different chains (cysteine and 3-carboxylic acid-6-mercaptopyridine), using activation reaction with DIC/HOBt in acetonitrile. In this case, a redox state density of about 8.9 × 1014 states cm-2 and 9.3 × 1014 states cm-2 , in addition to a kinetic constant of 2.6 × 103 � −1 and 1.07 × 103 � −1 to I (3-carboxylic acid-6- mercaptopyridine) and II (Cysteine) approaches, respectively, were used in the present study. Results suggesting a higher capacity of the pyridinium ring compound anchoring molecules (I approach) in charge conduction when compared to the II approach, which was later confirmed by conductance analysis: the I approach presented � = 6 × 10−3 � and � = 2 × 10−3 � for approach II. This work presented a theoretical-experimental approach relating the quantum physicochemical components through a new perspective based on the theoretical studies of Marcus-Buttiker and on experimental analyzes focused on the electrochemical capacitance.

Monocamadas auto-organizadas

Capacitância

Transferência de elétrons

Condutância molecular

Self-assembled monolayers

Capacitance

Electron transfer

Heterogeneous electron transfer rate

Electrochemical impedance spectroscopy

Molecular conductance