NANOMATERIALS-BASED SENSORS FOR PEROXYNITRITE DETECTION AND QUANTIFICATION

Kalil, Haitham Fawzy Mohamed

January 2017

No description available.

Chemistry

Peroxynitrite

Cyclic Voltammetry

Manganese functionalized graphene-hemin

Aniline selenide

Microespectroscopia IR para o estudo de folhas de grafeno funcionalizadas e eletroquí­mica in-situ / IR microspectroscopy for the study of functionalized graphene sheets and in-situ electrochemistry

Macêdo, Lucyano Jefferson Alves de

24 January 2018

Esta dissertação de mestrado aborda dois estudos que foram desenvolvidos utilizando a técnica de microscopia FTIR (micro-FTIR): a reatividade do grafeno funcionalizado e a eletroquímica in-situ com micro-FTIR para avaliação de reações redox. A reatividade e a distribuição de cargas em materiais 2D, mais especificamente em folhas individuais de grafeno, têm sido alvo de muita investigação na última década. No entanto, ainda não é conhecido como elas se apresentam em grafeno com grandes áreas, uma vez que a maioria dos estudos utilizam áreas muito pequenas (~μm2). Neste estudo, investigou-se experimentalmente como um eletrodo formado por uma única folha de grafeno se comporta quando sua estrutura é alterada por funcionalização covalente. Utilizando microespectroscopia na região do infravermelho, avaliou-se a funcionalização de grafeno com unidades de ácido benzoico no grafeno ancorados eletroquimicamente. O mapeamento químico mostrou que a distribuição espacial dessas unidades não ocorre uniformemente, ao invés disso, existem pontos específicos de ancoramento. Por fim, observou-se que a funcionalização ocorre mais intensamente na borda da folha de grafeno, alterando as propriedades óticas e eletroquímicas deste material, reduzindo o ganho ótico proporcionado pelos plásmons e aumentando a resistência de transferência heterogênea de elétrons. Para o segundo capítulo dessa dissertação, aplicou-se a microespectroscopia FTIR multiplex ao estudo da mudança química de um eletrodo de ouro modificado com azul da prússia (AP). Para isso, observou-se que uma etapa limitante era a confecção de um porta-amostra que reduzisse a camada de eletrólito ao mínimo de forma que a água não mais absorvesse a radiação de forma majoritária. Logo, foi possível o estudo vibracional de vários pontos da superfície do eletrodo, observando-se a influência do potencial aplicado, onde tem-se uma grande dependência dos sinais referentes ao estiramento C≡N do AP com a condição de potencial imprimida no eletrodo. / This Masters dissertation approaches two studies developed using the FTIR microspectroscopy technique (micro-FTIR): the activity of graphene functionalized and the in-situ electrochemistry with micro-FTIR for the evaluation of redox reactions. Reactivity and charge distribution in 2D materials, especially in single graphene sheets, have been the focus of extensive investigation during the last decade. However, there is still no knowledge on how large-area graphene behaves, since most of the studies utilize too small areas (~μm2). In this study, we aim to investigate experimentally how an electrode composed of only one single sheet of graphene behaves when its structure is changed by covalent functionalization. Using infrared microspectroscopy, the electrochemically induced covalent functionalization of graphene with benzoic acid unities was evaluated. The chemical mapping showed that the spatial distribution of these unities does not occur uniformly, instead, there are specific anchoring points. Lastly, it was observed that the functionalization occurs more intensely on the edges of the graphene sheet and that the covalent, affecting its optical and electrochemical properties, reducing the optical gain provided by the plasmons and increasing the resistance of heterogeneous electron transfer. In the second chapter of this dissertation, multiplex FTIR microspectroscopy was applied to the study of the chemical changes of a gold electrode modified with Prussian blue (PB). It was observed that the limiting step for this type of analysis was the building of a sample holder that reduces the electrolyte layer to the minimum in a way that water did not absorb the radiation in majority. Therefore, a vibrational study of several points of the electrode surface was possible evaluating the influence of the applied potential, where there is a dependence of the signals related to the C≡N stretching mode from PB on the potential condition applied to the electrode.

eletroquímica in-situ

FTIR microspectroscopy

functionalized graphene

grafeno funcionalizado

in-situ electrochemistry

microespectroscopia FTIR

reactivity

reatividade

Microespectroscopia IR para o estudo de folhas de grafeno funcionalizadas e eletroquí­mica in-situ / IR microspectroscopy for the study of functionalized graphene sheets and in-situ electrochemistry

Lucyano Jefferson Alves de Macêdo

24 January 2018

Esta dissertação de mestrado aborda dois estudos que foram desenvolvidos utilizando a técnica de microscopia FTIR (micro-FTIR): a reatividade do grafeno funcionalizado e a eletroquímica in-situ com micro-FTIR para avaliação de reações redox. A reatividade e a distribuição de cargas em materiais 2D, mais especificamente em folhas individuais de grafeno, têm sido alvo de muita investigação na última década. No entanto, ainda não é conhecido como elas se apresentam em grafeno com grandes áreas, uma vez que a maioria dos estudos utilizam áreas muito pequenas (~μm2). Neste estudo, investigou-se experimentalmente como um eletrodo formado por uma única folha de grafeno se comporta quando sua estrutura é alterada por funcionalização covalente. Utilizando microespectroscopia na região do infravermelho, avaliou-se a funcionalização de grafeno com unidades de ácido benzoico no grafeno ancorados eletroquimicamente. O mapeamento químico mostrou que a distribuição espacial dessas unidades não ocorre uniformemente, ao invés disso, existem pontos específicos de ancoramento. Por fim, observou-se que a funcionalização ocorre mais intensamente na borda da folha de grafeno, alterando as propriedades óticas e eletroquímicas deste material, reduzindo o ganho ótico proporcionado pelos plásmons e aumentando a resistência de transferência heterogênea de elétrons. Para o segundo capítulo dessa dissertação, aplicou-se a microespectroscopia FTIR multiplex ao estudo da mudança química de um eletrodo de ouro modificado com azul da prússia (AP). Para isso, observou-se que uma etapa limitante era a confecção de um porta-amostra que reduzisse a camada de eletrólito ao mínimo de forma que a água não mais absorvesse a radiação de forma majoritária. Logo, foi possível o estudo vibracional de vários pontos da superfície do eletrodo, observando-se a influência do potencial aplicado, onde tem-se uma grande dependência dos sinais referentes ao estiramento C≡N do AP com a condição de potencial imprimida no eletrodo. / This Masters dissertation approaches two studies developed using the FTIR microspectroscopy technique (micro-FTIR): the activity of graphene functionalized and the in-situ electrochemistry with micro-FTIR for the evaluation of redox reactions. Reactivity and charge distribution in 2D materials, especially in single graphene sheets, have been the focus of extensive investigation during the last decade. However, there is still no knowledge on how large-area graphene behaves, since most of the studies utilize too small areas (~μm2). In this study, we aim to investigate experimentally how an electrode composed of only one single sheet of graphene behaves when its structure is changed by covalent functionalization. Using infrared microspectroscopy, the electrochemically induced covalent functionalization of graphene with benzoic acid unities was evaluated. The chemical mapping showed that the spatial distribution of these unities does not occur uniformly, instead, there are specific anchoring points. Lastly, it was observed that the functionalization occurs more intensely on the edges of the graphene sheet and that the covalent, affecting its optical and electrochemical properties, reducing the optical gain provided by the plasmons and increasing the resistance of heterogeneous electron transfer. In the second chapter of this dissertation, multiplex FTIR microspectroscopy was applied to the study of the chemical changes of a gold electrode modified with Prussian blue (PB). It was observed that the limiting step for this type of analysis was the building of a sample holder that reduces the electrolyte layer to the minimum in a way that water did not absorb the radiation in majority. Therefore, a vibrational study of several points of the electrode surface was possible evaluating the influence of the applied potential, where there is a dependence of the signals related to the C≡N stretching mode from PB on the potential condition applied to the electrode.

eletroquímica in-situ

grafeno funcionalizado

microespectroscopia FTIR

reatividade

FTIR microspectroscopy

functionalized graphene

in-situ electrochemistry

reactivity

Biosenzory na bázi funkcionalizovaného grafenu / Biosensors based on functionalized graphene

Pavlásková, Lucie

January 2021

V této práci byl demonstrován grafenový polem řízený transistor (GFET) jako platforma pro detekci glukózy. Sukcinimidyl ester pyrenbutanové kyseliny (PSE) sloužící jako nosič a enzym glukóza oxidáza (GOx) byly úspěšně použity k funkcionalizaci grafenového kanálu ve FE transistoru. Enzym GOx byl imobilizován na kanálu pro glukózovou detekci, jelikož indukuje selektivní katalytickou reakci glukózy. Proces funkcionalizace byl charakterizován pomocí Ramanovy spektroskopie a Atomární silové mikroskopie (AFM). Vyrobený biosenzor na bázi grafenu umožnil elektrickou detekci glukózy ve dvou různých uspořádáních. V uspořádní FET prostřednictvím posunu Diracova bodu ve voltampérové charakteristice, jakož i v nastavení pro kotinuální monitorování v reálném čase prostřednictvím změny odporu grafenového kanálu. Tato studie naznačuje, že grafen je slibným materiálem pro vývoj nanoelektronických biosenzorů včetně aplikací pro monitorování hladiny glukózy.

Aqueous Dispersions of Graphene Oxide, Reduced Graphene Oxide and Functionalized Graphene Oxide

Konkena, Bharathi

January 2014

Graphene sheets, one atom thick, two dimensional layers of carbon atoms, have gained enormous importance over the past few years due to their unique attributes - high electronic, thermal conductivities and exceptional mechanical strength. Chemical reduction of graphene oxide (GO) has been considered as a viable route for large scale production of graphene sheets. The reduced graphene oxide (r -GO) sheets although their conductivities are comparatively lower than that of graphene are nevertheless versatile material for applications in thin films and composites. An important consideration in the design of solution processing techniques for the preparation of processable graphene sheets is the dispersibility of GO and r -GO in different solvents, especially aqueous dispersibility. While GO is dispersible in water over a wide range of pH values, r -GO shows poor dispersibility and over a limited range of pH values. Graphene oxide, the oxidized form of graphene, are single atomic layers with lateral dimension that can extend to hundreds of nanometers. The sheets contain a sizable fraction of carbons that are sp3 hybridized and covalently bonded to oxygen in the form of epoxy, carbonyls as well as ionizable hydroxyl and carboxylic functional groups located on the rim of the sheets. The remaining carbons form isolated sp2 graphene like networks. On reduction the oxygen functionalities are removed and the sp2 network partially restored. This thesis focuses on the aqueous dispersibility of GO and r -GO, and describes a strategy to enhance the dispersibility of r -GO by cyclodextrin functionalization. Chapter 1 of the thesis provides a brief review of the synthetic procedures and structure of GO and r -GO while Chapter 2 describes the experimental methods and characterization techniques used in the thesis. The chemistry underlying the aqueous dispersibility of GO and r -GO at different values of pH have been investigated by zeta potential measurements, pH titrations and infrared spectroscopy (Chapter 3). These measurements show that r -GO sheets have ionizable groups with a single pKa value (8.0) while GO sheets have groups that are more acidic (pKa = 4.3), in addition to groups with pKa values of 6.6 and 9.0. Infrared spectroscopy has been used to follow the sequence of ionization events. In both GO and r -GO sheets, it is ionization of the carboxylic groups that is primarily responsible for the build up of charge, but on GO sheets, the presence of phenolic and hydroxyl groups in close proximity to the carboxylic groups lowers the pKa value by stabilizing the carboxylate anion, resulting in superior water dispersibility. Till recently GO was primarily considered only as an easily available precursor for chemical routes to r -GO but it has now been recognized as an interesting material in its own right. Two such attributes that have attracted wide spread attention are the in- trinsic and tunable fluorescence of GO as well as formation of liquid crystalline phases. Aqueous dispersions of GO exhibit strong pH dependent fluorescence in the visible region that originates, in part, from the oxygenated functionalities present. In Chapter 4, the spectral migration on nanosecond timescales of the pH dependent features in the fluores- cence spectra of GO is described. The changes in the steady state fluorescence spectra with pH have been correlated with the sequence of dissociation events that occur in GO dispersions at different values of pH described in Chapter 3, from time resolved emission spectra (TRES) constructed from the wavelength dependent fluorescence decay curves, it is shown that the migration is associated with excited state proton transfer. Both ‘intramolecular’ and ‘intermolecular’ transfers involving the quasimolecular oxygenated aromatic fragments are observed. Aqueous dispersions of GO constitute a distinctive class of 2D-anisotropic colloids with competing interactions - long range electrostatic repulsion, originating from ionized carboxylic groups located on the rim of the sheets and weak dispersive attractive interactions originating from the un-oxidized sp2 graphitic domains. In Chapter 5, it is shown that, colloidal dispersions of GO are intrinsically frustrated, exhibiting a range of arrested or metastable states, encompassing fluid, glass and gels that coexist with liquid crystalline order. These states can be accessed by varying the relative magnitudes of the repulsive and attractive forces by changing the ionic strength of the medium, by addition of salt and/or the concentration of the dispersion. At low salt concentrations, where long range electrostatic repulsions dominates, the formation of a repulsive Wigner glass is observed while at high salt concentrations, when attractive forces dominate, the formation of gels that exhibits a nematic to columnar liquid crystalline transition. These studies highlights how the chemical structure of GO - hydrophilic ionizable groups and hydrophobic graphitic domains coexisting on a single sheet - gives rise to a rich and complex phase diagram. The poor dispersibility of r -GO in aqueous media limits its use in practical applica- tions. To enhance the dispersibility, r -GO sheets have been functionalized by covalently linking -cyclodextrin ( -CD) cavities to the sheets via an amide linkage (Chapter 6). The functionalized -CD: rGO sheets, in contrast to r -GO, are dispersible over a wide range of pH values (2 - 13). Zeta potential measurements indicate that there is more than one factor responsible for the dispersibility. It is shown that planar aromatic molecules adsorbed on the r -GO sheet as well as nonplanar molecules included in the tethered -CD cavities have their fluorescence effectively quenched by the -CD: rGO sheets. The -CD: rGO sheets combine the hydrophobicity associated with r -GO along with the hydrophobicity of the cyclodextrin cavities in a single water dispersible material. Resonance Raman spectroscopy is a powerful analytical tool for detecting and identi- fying analytes, but the associated strong fluorescence background severely limits the use of the technique. In Chapter 7, it is shown that the cyclodextrin functionalized -CD: rGO sheets, described in Chapter 6, provides a versatile platform for resonance Raman detection. Planar aromatic and dye molecules that adsorb on the r -GO graphitic domains and non-planar molecules included within the tethered -CD cavities have their fluorescence effectively quenched. Using the water dispersible -CD: rGO sheets, it is possible to record the resonance Raman spectra of adsorbed and included organic chromophores directly in aqueous media without having to extract or deposit on a substrate. The Raman signal intensities show a linear dependence with the concentration of analyte present in water. This is significant, as it allows for the identification and estimation of organic analytes present in water by resonance Raman spectroscopy.

Graphene Oxide

Reduced Graphene Oxide (r-GO)

Functionalized Graphene Oxide

Graphene Oxide Aqueous Dispersions

Cyclodextrin

Graphene Oxide Sheets

Fluorescence

Reduced-Graphene Oxide Sheets

Inorganic Chemistry

[pt] REOLOGIA DE SUSPENSÕES DE GRAFENO FUNCIONALIZADO NUM FLUIDO MODELO COM TENSÃO LIMITE DE ESCOAMENTO / [en] RHEOLOGY OF FUNCTIONALIZED GRAPHENE SUSPENSIONS IN A MODEL YIELD STRESS FLUID

LORENA RODRIGUES DA COSTA MORAES

13 September 2021

[pt] Este trabalho investiga o impacto de suspensões de grafeno funcionalizado sobre reologia de uma dispersão aquosa de Carbopol. Os derivados de grafeno usados foram óxido de grafeno (GO) e óxido de grafeno amino funcionalizado (AFGO). A variação da concentração e do grau de oxidação do grafeno funcionalizado foram avaliadas e relacionadas à reologia das suspensões. O GO foi produzido a partir da síntese de óxido de grafite pelo método de Hummers modificado, e caracterizado pelas técnicas de DRX, Raman, TGA, FTIR, XPS, TEM e AFM. O GO foi funcionalizado com trietilenotetramina por reação assistida por microondas para produzir AFGO, caracterizado por TGA e XPS. As suspensões foram caracterizadas por experimentos de potencial zeta e testes reológicos de escoamento em estado estacionário e oscilatório. A caracterização do GO mostra que grupos funcionais oxigenados foram incorporados em sua superfície grafítica. O GO oxidado por 96 horas (GO 96 h) apresentou maior distância interplanar e também apresentou menos camadas quando comparado com GO oxidado por 2 horas (GO 2 h). A caracterização do AFGO aponta que grupos aminados foram covalentemente ligados às nanofolhas GO e o GO com maior grau de oxidação produziu AFGO com maior nível de aminação. Todas as nanofolhas sintetizadas são coloidalmente estáveis quando suspensas em meio neutro. Todas as suspensões foram bem modeladas pela equação de Hershel-Bulkley. O aumento da concentração de nanofolhas nas suspensões prejudica a microestrutura do fluido e leva a uma diminuição da viscosidade, tensão de escoamento e elasticidade. O GO 96 h promoveu menor decréscimo na viscosidade, tensão de escoamento e elasticidade do que a suspensão GO 2 h. No caso do AFGO, o maior grau de aminação pode levar a uma queda mais pronunciada nas propriedades reológicas da suspensão. Para a suspensão com maior concentração de GO 96 h, observou-se o aparecimento de histerese em baixas taxas de cisalhamento. Esses resultados mostram que pequenas mudanças na superfície das nanofolhas de grafeno funcionalizado podem influenciar as respostas reológicas de um fluido não newtoniano. / [en] This work investigates the impact of functionalized graphene suspensions on the rheology of a Carbopol aqueous dispersion. The graphene derivatives used were graphene oxide (GO) and amino-functionalized graphene oxide (AFGO). The variation of the functionalized graphene concentration and oxidation was evaluated and related with the suspensions rheology. GO nanosheets were produced from synthesis of graphite oxide by modified Hummers method, and they were characterized by XRD, Raman,TGA, FTIR, XPS, TEM and AFM techniques. The GO was functionalized with triethylenetetramine by microwave assisted reaction to produce the AFGO, which was characterized by TGA and XPS techiniques. The suspensions were characterized by zeta potential experiments and rheological tests through steady-state and oscillatory flow. The GO characterization shows that oxygenated functional groups were incorporated in its graphitical surface. GO oxidized for 96 hours (GO 96 h) showed higher interplanar distance and also presented fewer layers when compared with GO oxidized for 2 hours (GO 2 h). The AFGO characterization points out that aminated groups were covalently attached to the GO nanosheets and the GO with a higher oxidation degree produced an AFGO with higher amination level. All synthesized nanosheets are colloidally stable when suspended at neutral media. All suspensions were well modeled by the Hershel-Bulkley equation. The increase of the nanosheets concentration in the suspensions impairs the level of fluid structure and leads to a decrease in viscosity, yield stress, and elasticity. The GO 96 h promoted a lower decrease in viscosity, yield stress and elasticity than the GO 2 h suspension. In the case of AFGO, the greater amination degree can lead to a more pronounced drop in the suspension rheological properties. For the suspension with a higher concentration of GO 96 h, it was observed the appearance of hysteresis at low shear rates. These results show that small changes in the graphene functionalized nanosheets surface can influence the rheological responses of a non-Newtonian fluid.

[pt] FLUIDO VISCOPLASTICO

[pt] HIDROGEL

[pt] GRAFENO FUNCIONALIZADO

[pt] CARBOPOL

[pt] OXIDO DE GRAFENO

[pt] GRAFENO

[pt] SUSPENSAO

[pt] REOLOGIA

[en] VISCOPLASTIC FLUID

[en] HYDROGEL

[en] FUNCTIONALIZED GRAPHENE

[en] CARBOPOL

[en] GRAPHENE OXIDE

[en] GRAPHENE

[en] SUSPENSION

[en] RHEOLOGY