Eletrodos modificados com monocamadas auto-organizadas de alcanotióis: uma abordagem sobre a transferência eletrônica / Electrode surface modified with alkanothiols self-assembled monolayers: an electron transfer approach

Juliana Carlos Cancino

11 June 2008

A modificação de eletrodos por sistemas auto-organizados (SAM) é um dos temas mais discutidos em eletroquímica e eletroanalítica, principalmente por elevar a biocompatibilidade destas superfícies. O foco principal deste trabalho está na transferência eletrônica através das SAMs de moléculas de alcanotióis sobre a superfície de eletrodos de ouro. Com a finalidade de investigar o comportamento eletroquímico do par redox [Fe(CN)6]3-/[Fe(CN)6]4-,, as superfícies de ouro foram modificadas com SAMs de alcanotióis com cadeias carbônicas de diferentes comprimentos e suas misturas. Desta forma, foi possível observar que as superfícies modificadas com monocamadas com 2, 3 ou 4 átomos de carbono em sua cadeia permitem que a transferência de elétrons ocorra através da SAM, produzindo perfis voltamétricos muito similares aos observados com a superfície de ouro sem a modificação. Com cadeias carbônicas longas (até 11 átomos de carbono), a transferência eletrônica é totalmente bloqueada e nenhum perfil voltamétrico foi observado. Com o objetivo de explorar o bloqueio total da superfície modificada de moléculas de alcanotióis de cadeias longas, os excessos superficiais foram calculados por meio da carga voltamétrica obtida da dessorção redutiva. Observaram-se valores de excesso superficial próximos a 9,0x10-10 mol/cm2, o que demonstra uma cobertura completa dos sítios ativos da superfície, justificando assim a ausência da resposta eletroquímica. A superfície modificada com as misturas de monocamadas de cadeias carbônicas longas e curtas promoveu respostas voltamétricas interessantes, desde que as moléculas de cadeias curtas contenham menos que 4 átomos de carbono. Neste caso, respostas voltamétricas sigmoidais similares às de ultramicroeletrodos (UMEs) foram obtidas. Este efeito foi associado com a formação de conjuntos de UMEs formados na superfície do eletrodo. O raio e a separação entre os UMEs nestas superfícies foram calculados como sendo 42 e 221 µm, respectivamente. Um total de 60 UMEs foi encontrado na superfície modificada. Estes UMEs foram formados por moléculas de cadeias menores totalmente emparedadas por cadeias maiores (moléculas de ácido 11- mercaptoundecanóico). Este comportamento reforça o propósito de que a transferência dos elétrons ocorra através das monocamadas de cadeia menor e que as moléculas de cadeia longa bloqueiam a superfície. Todos os experimentos voltamétricos foram seguidos de análises de espectroscopia de impedância eletroquímica os quais permitiram determinar a resistência de transferência de carga para cada modificação. Superfícies modificadas com alcanotióis de cadeia longa apresentaram elevados valores de transferência de carga, enquanto que as superfícies modificadas com alcanotióis de cadeia curta apresentam baixos valores de transferência eletrônica, em concordância com o comportamento voltamétrico observado. Finalmente, a organização de cada monocamada foi monitorada utilizando a microbalança eletroquímica de cristal de quartzo. Pela variação de massa com o tempo de imersão do eletrodo na solução contendo o alcanotiól de interesse foi possível observar etapas de adsorção/dessorção, com o aumento da organização da monocamada. Os valores teóricos de variação de massa calculados para a formação de uma monocamada completa na superfície eletroquímica, apresentaram excelente concordância com os dados experimentais obtidos pelo monitoramento do sistema ao longo dos experimentos (depois de aproximadamente 2 horas de imersão). / The modification of electrode surfaces with self-assembled monolayer (SAM) is one of the top subjects in electrochemistry and electroanalysis, mainly due to its much enhanced biocompatibility. In this study, the focuses are centered in the electron transfer through SAMs of alkanothiols assembled onto gold electrode surfaces. In order to investigate the electrochemical behavior of the redox couple [Fe(CN)6]3-/[Fe(CN)6]4-, Au surfaces were modified with SAMs of long and short carbon chains alkanethiols, as well as with their mixtures. In this way, it was possible to observe that surfaces modified with monolayers of 2, 3 or 4 carbon atoms in the chain allowed electrons transfer to occur through the SAM, generating a voltammetric profile very similar to those observed on bare Au surfaces. With longer carbon chains (up to 11 carbon atoms), the electron transfer was totally blocked and none voltammetric profile was observed. Aiming to explain the total blockage of the surface with long chain alkanethiols modifications, the surface excess of molecules were measured by the voltammetric charge required for their reductive desorption. It was always observed surface excesses near to 9.0x10-10 mol/cm2, which is related to a full coverage of the active sites on the surface, thus justifying the absence of electrochemical response. The surface modification with mixtures of long and short carbon chains monolayers promoted very interesting voltammetric responses, as long as the short chains contain less than 4 carbon atoms. In this case, sigmoidal voltammetric responses were obtained, very similar to those observed for ultramicroelectrodes (UMEs). Such effect was associated to the formation of UMEs arrays in the electrode surface. The radius and separation of each UME in this surface array was evaluated as 42 and 221 µm, respectively. A value of 60 UMEs were found for the entire surface. These UMEs were formed by the short chain molecules totally walled by the long chain ones (mercaptoundecanoic acid molecules). Such behavior reinforces the proposition of electron transference through the short chain alkanethiol layer and surface blockage by the long chain one. All the voltammetric experiments were followed by electrochemical impedance spectroscopic analysis which allowed were determined the charge transfer resistance for each modification. Very large values were determined for long carbon chains while for the short chains much smaller resistance values were found, as expected by the voltammetric behavior. Finally, the assembling of each monolayer was followed by quartz crystal microbalance measurements. By the electrode mass variation with time of immersion in a solution containing the alkanethiol of interest it was possible to observe several steps of adsorption/desorption, as the organization of the monolayer increases. The theoretical values for mass variation for a full monolayer in the electrochemical surfaces were found to be in highly agreement with the experimental ones, measured in long time experiments (after approximately 2 hours of immersion).

alcanotióis

eletrodos modificados

monocamadas auto-organizadas

alkanothiols

modified electrodes

self-assembled monolayers

Desenvolvimento e caracterização de um biossensor bienzimático imobilizado sobre monocamadas auto-organizadas para determinação de açúcares em alimentos / Development and characterization of the byenzimatic biosensor immobilized on self assembled monolayers to determination of the sugars in food

Andressa Galli

04 September 2009

Este trabalho descreve a preparação, a caracterização e o uso de um biossensor bienzimático confeccionado com as enzimas glicose oxidase e frutose dehidrogenase imobilizadas em camadas auto-organizadas ou self-assembled monolayers (SAMs) de cistamina para a quantificação de açúcares em alimentos. Após o preparo do eletrodo de ouro com a SAM de cistamina, biossensores foram construídos e para obtenção de melhores respostas, condições foram otimizadas, tais como: concentração do mediador tetratiafulvaleno (TTF), porcentagem de glutaraldeído, temperatura e tempo de vida do biossensor. Com as condições estabelecidas, fez-se então, a determinação analítica da D-glicose e da D-frutose em eletrólito puro pelo método da adição de padrão e os resultados foram obtidos por voltametria cíclica e cronoamperometria. A corrente de pico de oxidação do mediador de elétrons (TTF) aumentou proporcionalmente com o aumento da concentração e não ocorreram deslocamentos nos potenciais de pico. Os limites de detecção (LD) foram encontrados por meio do desvio padrão da média aritmética de dez amperogramas do branco no potencial equivalente aos dos picos de oxidação do mediador de elétrons TTF, juntamente com o valor do coeficiente angular da curva analítica. Após a obtenção da curva analítica o biossensor foi aplicado diretamente em amostras de refrigerante dietético e não dietético, bem como em amostras de adoçantes comerciais, onde foram realizados testes comparativos da resposta dos biossensores. Para o eletrólito puro e amostras de refrigerante dietético e de adoçantes, ou seja, onde não há presença de D-glicose e D-frutose, notou-se a ausência de corrente de pico, enquanto que para as amostras de refrigerante não dietético, houve um valor significativo de resposta de corrente, indicando a presença dos açúcares em estudo. Com o propósito de verificar a influência de interferentes e o efeito de matriz, foi construída uma curva analítica para a D-glicose e para a D-frutose, em amostras de refrigerante dietético e adoçantes, onde foram obtidas as menores quantidade destes açúcares. Para o refrigerante não dietético, foi determinado o valor inicial dos açúcares presentes nas amostras. Pode-se afirmar que a utilização dos biossensores baseados nas enzimas GOx e FDH mostraram-se eficientes para a determinação dos açúcares D-glicose e D-frutose nas amostras analisadas (com diferença significativa nos valores de corrente), apresentando uma resposta rápida, além da eliminação do efeito da matriz. A utilização do mediador de elétrons (TTF) possibilitou a reação em potencial próximo de zero, diminuindo o efeito de interferentes e evitando a desnaturação das enzimas. / This work describes the preparation, characterization and application of a bienzymatic biosensor based in the glucose oxidaze and fructose dehydrogenase immobilized on self-assembled monolayer of cystamine for sugar quantification in foodstuff. After the modification of the gold electrode with cystamine, the biosensors were developed and optimized for best responses. Optimization parameters were: mediator tetrathiafulvalene (TTF) concentration, glutaraldehyde percentage, temperature and life time of the biosensor. With the best conditions established, the analytical determinations of d-glucose and d-fructose in pure phosphate buffer were conducted by the standard additions method and the results obtained by cyclic voltammetry and chronoamperometry. The oxidation peak current related to the TTF voltammetric behavior raised proportionally to the increasing concentration of d-glucose or d-fructose, in a given and constant peak potential. The methodology detection limits were found using the standard deviation of ten chronoamperograms of the blank solution, in the potential value corresponding to that of TTF oxidation, and the slope of the analytical curve. After the analytical curve acquirement the biosensor was directly applied in samples of diet or non-diet softdrinks, as well as in commercial sweeteners samples, with comparative tests of the biosensor responses. For pure electrolyte and for diet foodstuff samples, i.e., were there is not expectation for d-glucose or d-fructose existence, it was detected the lack of the voltammetric peak associated with the mediator oxidation. In non-diet samples, a pronounced voltammetric peak was obtained, testifying the presence of sugar in the electrolytes under study. The matrix effect was verified by means of an analytical curve obtained for both analytes (d-glucose and d-fructose), in diet and sweeteners samples, properly spiked with known amounts of each analyte. It can be concluded that the utilization of the biosensor based in GOx and FDH showed to be efficient for d-glucose and d-fructose determinations in the analysed samples, with a fast response time and elimination of the matrix effect. The mediator promoted the electrochemical reaction to occur in potentials very close to zero, minimizing the interferences or the enzyme denaturation.

camadas auto-organizadas

frutose dehidrogenase

glicose oxidase

fructose dehidrogenase

glucose oxidase

self assembled monolayers

Caracterização eletroquímica de uma monocamada auto-organizada mista composta por ácido 3-mercaptopropiônico e ácido 11-mercaptoundecanóico / Electrochemical characterization of a mixed 3-mercaptopropionic and 11-mercaptoundecanoic acids self-assembled monolayer

Dyovani Coelho

15 April 2011

Monocamadas auto-organizadas formadas pela quimissorção de alcanotióis sobre ouro apresentam estruturas bem definidas, organizadas e reprodutíveis. As propriedades de SAMs, aliadas à facilidade de síntese, têm atraído o interesse da comunidade cientifica o que ocasionou um grande avanço na área de nanotecnologia, especialmente em engenharia de superfícies. Neste trabalho, avaliou-se a modificação de um substrato de ouro com uma mistura dos ácidos 3-mercaptopropiônico e 11-mercaptoundecanóico. Com isso procurou-se controlar a configuração da superfície da SAM a fim de se obter um arranjo com ilhas de 3amp circundadas por 11amu, similar a um conjunto de ultramicroeletrodos. A SAM mista foi produzida por incubação de um substrato de ouro em solução etanólica contendo ambos os tiois. O estudo do processo redox do par [Fe(CN)6]4-/[Fe(CN)6]3- demonstrou que monocamadas de 3amp se comportam como a superfície de ouro não modificado, apresentando os mesmos valores de corrente de pico (Ip), potencial de pico (Ep) e resistência de transferência de carga (Rtc), pois permitem que ocorra a transferência eletrônica por efeito de tunelamento quântico dos elétrons através da monocamada. Entretanto monocamadas de 11amu demonstram comportamento isolante, apresentando uma Rtc 250 vezes maior e Ip significativamente menores que a observada para a SAM-3amp. As cargas de dessorção redutiva e variação de massa obtidas com a MECQ para a SAM mista evidenciaram alto recobrimento da superfície e um mecanismo de adsorção que varia com o tempo de incubação do substrato em solução contendo os tiois. Assim, a configuração da superfície com domínios de 3amp bem estabelecidos é alcançada com 20 horas de incubação do substrato. O perfil observado com a voltametria cíclica, aliado aos dados obtidos com a EIE comprova a existência de segregação de fases na SAM mista contendo regiões recobertas pelo 3amp (raio médio de 4,3 µm) circundadas por 11amu (com separação média de 75,42 µm). O estudo do comportamento eletroquímico do fisetin confirma o surgimento de propriedades diferenciadas com a SAM mista, onde observou-se apenas um processo redox sem que o analito permanecesse adsorvido na superfície da SAM. Todavia para a SAM-3amp e ouro não modificado foi observado dois processos redoxes seguido de adsorção irreversível do produto da reação na superfície eletródica. Utilizando a SAM mista como sensor eletroquímico para determinação de fisetin em água alcançou-se um limite de detecção de 1,67 x10-8 mol L-1. / Self-assembled monolayers obtained by chemiosorption of alkanethiols on gold present well-defined, organized and reproducible structures. The unique properties exhibited by such surfaces, allied to the great facility to obtain, have attracted the interest of the scientific community and caused a significant advance in the nanotechnology research, especially in the surface engineering one. In this work, the modification of gold substrate with a mixture of 3-mercaptopropionic acid and 11-mercaptoundecanoic acid was evaluated. The aim was control the surface of the SAMs in order to obtain an island arrangement of 3mpa isolated by 11mua, similar to an array of ultramicroelectrodes. The mixed-SAM was built by the incubation of Au substrate in an ethanolic solution containing both thiols. The redox couple [Fe(CN)6]4-/[Fe(CN)6]3- study demonstrated that pure 3mpa monolayers behaves like the bare gold surface, presenting barely the same parameters of peak current (Ip), peak potential (Ep) and charge transfer resistance (Rct), since it allows the electronic transference to occurs by quantum tunneling effect through the monolayer. On the other hand the 11mua monolayers showed an insulating behavior and a Rct value nearly 250 times greater and, consequently, Ip values significantly less than that for 3mpa. The reductive desorption charges and mass changes obtained with an EQCM for the mixed-SAM indicated the high coverage of gold surface and a adsorption mechanism that depends on the incubation time of the substrate in the thiols solution. The surface configuration with 3mpa domains is reached after 20 hours of immersion. The cyclic voltammetric profile, together with the data from electrochemical impedance spectroscopy , proved the existence of phases segregation in the mixed-SAM with surface regions covered solely by 3mpa (with mean radius of 4.3 µm) surrounded by 11mua with a mean separation of 75.42 µm. The electrochemical behavior of the flavonoid fisetin confirms the rising of differentiated properties with the mixed-SAM, where only one electrochemical process was able to be observed, without irreversible adsorption of the analyte. For 3mpa and bare gold surfaces, two (or more) electrochemical processes were observed together with the blocking of the electrode surface by irreversible adsorption of the reaction product. The utilization of the mixed-SAM with electrochemical sensor for fisetin determination in pure water yielded a detection limit of 1.67 x10-8 mol L-1.

Alcanotiois

Monocamadas auto-organizadas

SAM mista

Alkanethiols

Mixed-SAM

Self-assembled monolayers

Single and Two-Step Adsorption of Alkanethiolate and Sulfide Layers on InSb and InGaAs in the Liquid Phase

Contreras, Yissel, Contreras, Yissel

January 2017

III-V semiconductors have higher charge carrier mobilities than silicon and are used in photovoltaic devices, optical sensors, and emitters. The high injection velocities obtained with III-V channels allow for faster transistors with low power consumption. However, the large-scale implementation in electronic devices is currently limited by the defective interface formed between III-Vs and their oxides. Clean III-V surfaces are highly reactive in air and form amorphous oxides that lead to a high density of dangling bonds. Satisfying these dangling bonds has been associated with an improvement in electrical performance, directing the development of strategies that decrease the surface reactivity (chemical passivation) and the density of surface states that cause power dissipation (electrical passivation). Sulfur bonds easily to III-V surfaces and has been used to chemically and electrically passivate GaAs. In this work, we investigated liquid phase sulfur chemistries in the chemical passivation of clean InSb(100) and In0.53Ga0.47As(100) surfaces terminated by their group V elements. Our strategy consisted of maximizing the number of bonds between sulfur and antimony or arsenic. A long alkane chain thiol, 1-eicosanethiol (ET, 20 carbon atoms), was used to produce a hydrophobic surface and deposit a dense organic layer by taking advantage of the van der Waals interactions between thiol molecules. The first part of the study involved the optimization of the thiol deposition process on InSb. Self-assembled alkanethiol monolayers were formed by immersing clean InSb substrates in ET solutions in ethanol for 20 h. The layers prevented the formation of detectable oxides for 20 min based on the O Auger x-ray photoelectron spectroscopy (XPS) peak. The thiol layer was completely removed by heating the surface to 227 C in vacuum. In the second part of the study, a 20 h ET deposition was performed on In0.53Ga0.47As(100), and re-oxidation was prevented for up to 4 min based on the O 1s XPS peak. The alkanethiolate layer was removed by heating the samples to 350 C in vacuum. The sulfur coverage after 20 min and 20 h ET depositions was increased by performing a second immersion in (NH4)2S without modifying the thickness of the layer. The best process studied consisted of a 20 h immersion in ET solution followed by a short (NH4)2S step, preventing the formation of oxides for up to 9 min. This is due to the presence of available surface sites and weakly bonded molecules in the layer after a long 20 h ET process. The chemical passivation effect is not uniquely influenced by surface termination, roughness, or lattice constant, but is rather a result of a combination of these factors. Future work will involve the fabrication and electrical characterization of III-V devices modified with various chemical passivation strategies.

alkanethiols

chemical passivation

InGaAs

InSb

self-assembled monolayers

x-ray photoelectron spectroscopy

Jonctions tunnel magnétiques avec des monocouches moléculaires auto-assemblées / Magnetic tunnel junctions based on self-assembled monolayers

Delprat, Sophie

30 June 2017

Le sujet de cette thèse concerne la spintronique moléculaire. Des jonctions tunnel magnétiques formées par une barrière tunnel moléculaire (monocouche auto-assemblée) insérée entre deux électrodes métalliques ferromagnétiques ont été étudiées. Afin de fabriquer les dispositifs, un procédé de greffage des molécules sur des substrats ferromagnétiques a été mis en place et une technique de lithographie a été développée pour définir des jonctions de taille submicronique. L’ensemble de ce travail expérimental a permis l’obtention de jonctions non court-circuitées et mesurables, où le transport électronique est bien du transport par effet tunnel.Les mesures de magnétotransport de ces échantillons ont amené des résultats intéressants et nouveaux : les jonctions, dont la barrière est formée par des alcanes-thiols, présentent de la magnétorésistance à température ambiante, allant jusqu’à 12%. Une partie de la thèse s’attelle à la compréhension des différents comportements magnétorésistifs observés : un modèle de barrière tunnel à deux niveaux est proposé pour les décrire.La dernière partie du travail présente des résultats préliminaires obtenus lorsque la barrière moléculaire est formée par des molécules aromatiques ou commutables et met en évidence des phénomènes nouveaux par rapport au cas précédent.L’ensemble des résultats prouve le fonctionnement de jonctions tunnel magnétiques à base de monocouches moléculaires à température ambiante et ouvre la voie à l’utilisation de molécules plus complexes pour une électronique de spin moléculaire multifonctionnelle. / This thesis work enters within the molecular spintronic fields. Magnetic tunnel junctions based on molecular self assembled monolayers have been investigated. The devices structure is a molecular monolayer inserted between two ferromagnetic electrodes.A process to graft molecules on a ferromagnet’s surface and a lithography technique have been developed to define the junctions. This experimental work has led to non short-circuited and measurable junctions, in which an electronic tunnel transport has been demonstrated.Interesting and new results have been found out from magnetoresistance measurement of the samples: junctions made with alkanes-thiols barrier have shown magnetoresistance signal at room temperature (up to 12%). In order to explain the magnetoresistive behaviour, a simple model where the barrier is discribed by two levels has been proposed.The last part of the thesis reports preliminary results obtained when the barrier is made of aromatic molecules or switchable molecules and it points out new phenomenons compared to the alkanes case.The overall work proves that devices made from magnetic tunnel junctions with self-assembled monolayers work at room temperature. It is then possible to consider switchable molecules to build multifunctional molecular spintronics devices.

Spintronique

Monocouches moléculaires

Thiols

Jonctions tunnel

Nanofabrication

Magnétorésistance

Spintronic

Self assembled monolayers

Tunnel junctions

537.2

Self-Assembled Molecular Layers Comprising 'Donor-sigma-Acceptor' Architecture On Gold And ITO Surfaces : Design, Synthesis And Development Towards Novel Applications

Sarkar, Smita

07 1900

No description available.

Organic Thin Films

Monolayers

Electron Transfer Reactions

Benzoquinone Monolayers

Ferrocene Monolayers

Self-Assembled Monolayers

Organic Chemistry

Microarrays on gold : new applications for biocatalysis and proteomics

Castangia, Roberto

January 2012

Microarrays on gold have been used to develop new methodologies for biocatalysis and proteomic applications. The technology applies the logic of solid phase supported chemistry using self-assembled monolayers (SAMs) on a gold chip. The advantages of this technology are: i) an easy to handle platform, ii) parallel screening (64 reactions at once), iii) microliter scale reactions (1µL per sample), iv the use of mild conditions (buffers and t=37 °C), v) the absence of purification steps (only chip washing is required), vi) quick and accurate analysis by MALDI ToF MS.The metallopeptidase thermolysin was studied in peptide-coupling reactions to profile reactivity and specificity (Chapter 2). Reactivity was further investigated in transpeptidation reactions. Comparing the serine peptidase chymotrypsin with the zinc dependent thermolysin, it was found that transpeptidations proceed via N-transacylation reactions independent of a specific enzymatic catalytic mechanism (Chapter 3). These transacylations may be exploited for modifications of biocompatible and selective surfaces in ‘bottom-up’ bionanofabrication technologies. Selected peptidases with different catalytic mechanism were also arrayed to investigate polymerisation ability of dipeptides (Chapter 4). It was shown that oligomerisation can be obtained under mild conditions and a set of peptides was synthesised. Chapter 5 describes a new chemical methodology by which crude tryptic peptide digests can be trapped on chip and analysed by MALDI ToF MS without further purification steps. This dramatically improves time and cost efficiency.Finally, a new stepwise native chemical ligation methodology is proposed for amino acids, and peptides containing N-terminal cysteine residues (Chapter 6).

553.4

Monocouches auto-assemblées électroactives : apport de la spectroélectrochimie pour l'étude de réactions couplées au transfert d'électrons / Electroactive Self-Assembled Monolayers : contribution of the spectroelectrochemistry for the study of electron-coupled transfer reaction

Bkhach, Sihame

24 October 2017

L’objectif de cette thèse de doctorat vise à développer des monocouches organiques auto-assemblées (SAMs) destinées à mieux comprendre la transposition depropriétés macroscopiques observées en solution vers le milieu confiné. Dans le cadre de notre étude, nous avons synthétisé des précurseurs électroactifs (i.e. dérivés du thiophène, du pérylènediimide et du tétrathiafulvalène) comportant des mécanismes électrochimiques (i.e. schéma carré, EDimE) et des propriétés optiques (absorption et/ou émission de fluorescence) spécifiques. L’immobilisation des précurseurs sur substrats d’or à l’aide de fonctions disulfures a permis d’élaborer des SAMs. L’étude des électrodes modifiées par des méthodes électrochimiques (voltammétrie cyclique) et spectroélectrochimiques a permis d’établir des relations de type structure/propriétés et structure/réactivité. / This thesis is devoted to the elaboration of new organic self-assembled monolayers (SAMs) for a better understanding of the transposition of macroscopic properties that are well-known in solution onto metallic surface. In our study we have synthesised electroactive precursors (i.e. thiophene, perylene diimide and tetrathiafulvalene derivatives) with electrochemical mechanisms (i.e. squared scheme, EDimE) and specific optical properties (absorption and/or emission of fluorescence). The immobilization of the precursors on gold substrates was achieved using disulphide moieties to form SAMs. The study of the modified electrodes by electrochemical techniques (cyclic voltammetry) and spectroelectrochemistry helped to establish detailed structure-properties and structure-reactivity relationships, especially on mixed SAMs.

Spectroélectrochimie

Pi-dimérisation

Pérylène

Thiénylènevinylène

Self-assembled monolayers

Electrochemistry

Spectroelectrochemistry

Pi-dimerization

540

Formation of a Single Pinhole on Self-Assembled Monolayer Modified Nanometer-Sized Gold Electrode and Its Electrochemical Behaviors

Lakbub, Jude, Kady, Ismail, Sun, Peng

01 September 2011

In this paper, a nanometer-sized gold electrode with an effective radius around several tens of nanometers has been modified with a monolayer of alkanethiols. There are pinholes in the monolayer, and the pinholes can be used as very small electrode. Our evaluation shows that it is possible to have only one pinhole on the monolayer covered electrode. The single pinhole electrode has been used to study the electrochemical behaviors of fast and slow electrochemical reactions. Our results show that the electrochemical response of a slow electrochemical reaction is not a Butler-Volmer response if the electrode is small enough.

gold electrode

nanometer-sized gold electrode

pinhole formation

self assembled monolayers (SAMs)

Chemistry

Surface Potential Measurements of Micropatterned Self-Assembled Monolayers (SAMs) on n-Si (111) via Kelvin Probe Force Microscopy / ケルビンプローブ力顕微鏡によるSi(111)表面に形成したSAMの表面電位計測

GARCIA, MARIA CARMELA TAN

23 March 2022

京都大学 / 新制・課程博士 / 博士(工学) / 甲第23897号 / 工博第4984号 / 新制||工||1778(附属図書館) / 京都大学大学院工学研究科材料工学専攻 / (主査)教授 杉村 博之, 教授 山田 啓文, 教授 邑瀬 邦明 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

self-assembled monolayers

surface potential

Kelvin Probe Force Microscope

surface dipole

VUV photolithography

Micropattern

500