Applications of Surface Analysis Techniques to the Study of Electrochemical Systems

Johnston, Matthew Gerard

14 July 2004

No description available.

Chemistry, Physical

UHV electrochemistry

Ionic liquid

electrodepostion

Li+

Carbon anode

Glassy carbon

electrochemical double layer capacitor

THE DEVELOPMENT AND CHARACTERIZATION OF LOW-TEMPERATURE GLASSY CARBON FILMS FOR SOLID PHASE MICROEXTRACTION

Giardina, Matthew

January 2002

No description available.

Chemistry, Analytical

Solid phase microextraction

Low temperature glassy carbon

Extraction

Separation

Chromatography

Fundamental Studies With Functionalized Low Temperature Glassy Carbon In Liquid Chromatography, Solid-Liquid Extraction, And Capillary Electrophoresis

Shearer, Justin W.

11 September 2008

No description available.

Analytical Chemistry

low temperature glassy carbon

liquid chromatography

extraction

microfabrication

electrophoresis

fluorinated stationary phase

Elektrohemijsko taloženje niobijuma iz fluoridnih rastvora i hloroaluminatnih rastopa na staklastom ugljeniku, platini i zlatu / Electrochemical deposition of niobium from fluoride solution and chloroaluminate melts on glassy carbon, platinum and gold

Vukićević Nataša

18 May 2017

<p>Cilj ovog rada bio je da se ustanovi da li dolazi do elektrohemijskog taloženja&nbsp; niobijuma i aluminijuma iz hloroaluminatnih rastopa obogaćenih niobijumom na podlogama od staklastog&nbsp; ugljenika, platine i zlata. Nadalje, ako dolazi do rečenog&nbsp; taloženja, da li pri tome dolazi i do formiranja legura niobijuma sa izabranim podlogama kao i da li dolazi do formiranja legura niobijuma sa zajednički taloženim aluminijumom. I na kraju,&nbsp; cilj je&nbsp; bio da se navedeni fenomeni ostvare na &scaron;to nižim temperaturama.</p><p>Nb&nbsp; i&nbsp; Al&nbsp; su elektrohemijski taloženi na staklastom ugljeniku, platini i zlatu pri 200&nbsp; &deg;C, pod atmosferom argona, iz rastopa napravljenog od ekvimolarne sme&scaron;e AlCl₃ + NaCl kome&nbsp; je dodat niobijum.</p><p>U istraživanjima su kori&scaron;ćene: linearna&nbsp; i&nbsp; ciklička voltametrija, metoda potenciodinamičke polarizacione krive, metoda &bdquo;otvorenog kola&ldquo;,&nbsp; hronoamperometrija,&nbsp; SEM,&nbsp; EDS, AFM&nbsp; i XRD analiza.</p><p>Elektrohemijsko taloženje Nb i Al iz primenjenih rastopa pri potpotencijalima uočeno je na podlozi od zlata. Taloženje niobijuma pri potpotencijalima na zlatu je novost, a taloženje Al na zlatu pri&nbsp; potpotencijalima poznato je od ranije. Elektrotaloženje&nbsp; Al&nbsp; i&nbsp; Nb&nbsp; iz primenjenih rastopa pri potpotencijalu na zlatu prethodi procesima elektrotaloženja niobijuma i aluminijuma pri natpotencijalima.&nbsp; Rezultat ovih procesa su Nb/Au i Al/Au legure nastale zajedničkim taloženjem i interdifuzijom istaloženog Nb, odnosno&nbsp; Al i podloge&nbsp; -&nbsp; zlata (AlAu,&nbsp; AlAu₂ , AlAu₄, AlNb₂ , AlNb₃ , Au₂Nb, Au₂Nb₃ , AuNb₃ , AlNb₃).</p><p>Elektrohemijsko taloženje Nb iz primenjenih rastopa pri potpotencijalima uočeno je na platini i prethodi procesima elektrotaloženja&nbsp; Nb&nbsp; i&nbsp; Al. Rezultat su formirane Nb/Pt legure nastale interdifuzijom&nbsp; istaloženog Nb i podloge&nbsp; -&nbsp; platine (Nb₃Pt). Pri natpotencijalima aluminijuma na&nbsp; platini dolazi do taloženja metalnog niobijuma, metalnog aluminijuma i zajedničkog taloženja Nb i Al. Kao posledica&nbsp; ovih procesa dolazi i do formiranja legura (AlNb₃, Al₃Pt₅ ,&nbsp; Nb₃Pt).</p><p>Elektrohemijsko taloženje niobijuma iz primenjenih rastopa na izabranim podlogama odigrava se na potencijalima koji su pozitivniji od potencijala&nbsp; elektrotaloženja aluminijuma.</p><p>Sve dobijene legure formirane su pri temperaturi od 200 &deg;C &scaron;to je nekoliko stotina stepeni niže od odgovarajućih temperatura potrebnih da se formiraju termičkim putem.&nbsp;</p> / <p>The aim of this study was to establish electrodeposition of niobium and aluminium from chloroaluminate melt (AlCl₃ + NaCl) enriched with niobium onto gold, platinum and glassy carbon substrates. Furthermore, if such deposition is shown to occur,&nbsp; to&nbsp; assess if it can lead to formation ofniobium alloys with chosen substrates or&nbsp; formation of Nb/Al alloys as a result of codeposition. And finally, if the deposition is indeed confirmed,&nbsp; to&nbsp; establish the lowest operational temperature at which it is possible.</p><p>Niobium and aluminium were electrodeposited onto glassy carbon, gold and platinum at&nbsp; 200 &deg;C, under an argon atmophere&nbsp; from the melt made of&nbsp; equimolar mixture AlCl₃ + NaCl with niobium being added.</p><p>Research methods used were:&nbsp; cyclic voltammetry, potentiodynamic polarization curves, &quot;open circuit&rdquo;, chronoamperometry,&nbsp; SEM,&nbsp; EDS, AFM and&nbsp; XRD&nbsp; analysis. Underpotential deposition of&nbsp; Nb&nbsp; and Al&nbsp; from the melt onto gold substrate was observed. Of the two, niobium deposition is a novelty, while alumininum deposition has been previously studied.&nbsp; Underpotential deposition of&nbsp; NB and Al onto gold from given melt precedes the overpotential deposition of aluminium and niobium onto gold. The result of these processes are Nb/Au and Al/Au alloys formed by codeposition of the two metals&nbsp; and&nbsp; interdiffusion between the Nb and Al deposits and the substrate -gold (AlAu, AlAu₂, AlAu₄, AlNb₂, AlNb₃,&nbsp; Au₂Nb, Au₂Nb₃, AuNb₃, AlNb₃). Underpotential deposition of niobium onto platinum from used melts was recorded and it precedes the&nbsp; processes of overpotential deposition of niobium and aluminium. The result is formation of Nb/Pt alloys as a consequence of&nbsp; interdiffusion between the substrate and the deposited Nb (Nb₃Pt). The potentials more negative than the aluminium deposition potential in the used system lead to deposition of niobium and aluminium&nbsp; individually and jointly. Thus, a number of alloys are formed (AlNb₃, Al₃Pt₅, Nb₃Pt).&nbsp; Niobium electrodeposition onto chosen substrates from the melt applied takes place at potentials which are more positive than the potential of electrodeposition of aluminium. Formation of&nbsp; the&nbsp; obtained alloys occurred at a temperature of 200 &deg;C which is several hundred degrees lower than the temperatures needed for their formation by thermal methods.</p>

Graphenated polyaniline nanocomposite for the determination of polyaromatic hydrocarbons (pahs) in water

Tovide, Oluwakemi Omotunde

January 2013

Philosophiae Doctor - PhD / The thesis presents a simple, sensitive, low cost and a novel graphenated polyaniline doped tungsten trioxide nanocomposite, as an electrochemical sensor for the detection and quantitative and determination of PAHs, which are ubiquitous, toxic, as well as dangerous organic pollutant compounds in the environment. The selected PAHs (anthracene, phenanthrene and pyrene) in wastewater were given priority as a result of their threat to human nature and that of the environment. In order for a healthy, non-polluted and well sustainable environment, there is need for an instrument that is capable of detecting and quantifying these organic pollutants onsite and also for constant monitoring. The nanocomposites were developed by chemical and electrochemical methods of preparations, exploiting the intrinsic properties of polyaniline, graphene and tungsten trioxide semiconducting materials. Chemically, graphene-polyaniline (GR-PANI) nanocomposite was synthesised by in situ polymerisation method, then casted on a surface of glassy carbon electrode to form GR-PANI modified electrode. The properties of the prepared electrode were investigated through morphological and spectroscopic techniques, which confirmed the formation of the composite. The electroactivity of the prepared modified electrode revealed great improvement in cyclic and square wave voltammetric response on anthracene. A dynamic range of 2.0 × 10-5 to 1.0 × 10-3 M and detection limit of 4.39 x 10-7 M was established.

Graphenated-polyaniline

Graphene

Polyaniline

Metal oxide

Polyaromatic hydrocarbons

Persistent organic pollutants

Wastewater

Electrocatalyst

Cyclic voltammetry

Glassy carbon electrode

Electrochemical sensor

Kyselina vanilmandlová a homovanilová: Elektroanalýza na elektrodách na bázi uhlíku / Vanillylmandelic and Homovanillic Acid: Electroanalysis at Carbon-Based Electrodes

Baluchová, Simona

January 2017

The objective of the present work is the study of the electrochemical behaviour of two diagnostic tumor markers of great importance, vanillylmandelic acid (VMA) and homovanillic acid (HVA), on carbon-based electrodes by using cyclic and differential pulse voltammetry. A comparison was made among non-modified glassy carbon electrode (GCE) and GCE modified by multi-walled carbon nanotubes, Nafion (Nafion/GCE) and poly(neutral red) (PNR/GCE), and further boron doped diamond (BDD) electrode which was activated by anodic polarization (Eakt = +2,4 V, t = 30 s) or by polishing on alumina slurry. Significant differences in the voltammetric responses of VMA and HVA were found, not only among utilized electrode materials which also influenced the way of controlling the oxidation process, but also they depend on the pH value of aqueous media in which these acids occurred. An acidic environment is the most suitable for their determination. Calibration dependences were measured in 0.1 mol∙l−1 phosphate buffer pH 3.0 which was chosen as an optimal supporting electrolyte for differential pulse voltammetric determination. Achieved detection limits were 0.6, 0.9, 0.8 and 1.2 μmol∙l−1 for HVA and 0.4, 1.5, 2.4 and 1.1 μmol∙l−1 for VMA at BDD electrode, non-modified GCE, Nafion/GCE and PNR/GCE, respectively. Limits...

Graphene modified Salen ligands for the electrochemical determination of heavy metal ions

Naidoo, Fayyaadh

January 2020

>Magister Scientiae - MSc / Environmental pollution is a major threat to all life, which needs to be addressed. Heavy metals are well-known environmental pollutants due to their toxicity and, persistence in the environment toxicity for living organisms and having a bioaccumulative nature. Environmentally, the most common hazardous heavy metals are: Cr, Ni, Cu, Zn, Cd, Pb, Hg, and As. Remediation using conventional physical and chemical methods is uneconomical and generates waste chemicals in large quantities. This study focuses on the extraction and determination of heavy metals (Nickel, Copper and Cobalt) by chelating Schiff base ligands of the type [O,N,N,O] with these metal ions. Two Schiff base ligands [N,N’-ethylenebis(salicylimine)] (Salen) and ligand [1,3-bis(salicylideneamino)-2-propanol] (Sal-DAP) were synthesized and characterised using FTIR, 1H and 13C NMR spectrometry and GC-MS techniques. Electrochemical detection of heavy metal ions in this work was achieved via ligand-metal complexation via two approaches. The in-situ method in which the metal and ligands were added to the electrochemical cell and stirred to allow complexation to occur and monitored by square wave voltammetry. While the ex-situ approach involved modifying the electrode surface by depositing a thin film of Schiff base on the electrode surface and immersed into a heavy metal solution to allow the complexation. Three modified GCE were used viz. Salen coated GCE, reduced graphene oxide-Salen coated GCE and a nafion-Salen coated GCE. The two approaches used for the electrochemical detection were successful and effective. The ex-situ approach was selected for the modification of the electrode surface since it demonstrated a higher capacity for heavy metal ion extraction.

Heavy metal removal

Square-Wave Voltammetry

Glassy carbon electrode

Water treatment

Využití antimonových filmových elektrod pro stanovení pesticidu trifluralin / Application of Antimony Film Electrodes for Determination of Pesticide Trifluralin

Gajdár, Július

January 2015

Antimony film electrode was studied for the use in a voltammetric analysis of organic compounds. The substance chosen as an analyte was trifluralin, which is used as a pesticide. The comparison of different substrate electrodes was carried out between five electrodes, which were gold, silver, copper, polished amalgam and glassy carbon electrode (GCE). Best performance was observed on antimony film glassy carbon electrode (SbFGCE). It provided higher sensitivity and lower limit of quantification in comparison with bare GCE. The antimony film was stable and it provided good reproducibility (RSD = 5.2 %). Parameters of an electrochemical preparation of SbFGCE were optimized. Conditions for determination of concentration of trifluralin were optimized on newly prepared SbFGCE. The best conditions were in a solution of methanol and 0.1 M hydrochloric acid in 1:1 ratio measured by differential pulse voltammetry. The limit of quantification was determined as 1.2·10-6 mol·l-1 . A direct voltammetric measurement on SbFGCE was carried out in a model river sample. Lower limits of quantification were achieved with solid phase extraction (SPE). Recovery values were 86 ± 8 % in deionized water with a preconcentration factor of 125. The limit of quantification was lowered to value 1.1·10-8 mol·l-1 . The extraction...

Estudos sobre o comportamento eletroquímico da N-nitrosodifenilamina e sua determinação em amostras de urina sintética / Studies about the electrochemical behavior of N-Nitrosodiphenylamine and its determination in synthetic urine samples

Martoni, Lucas Vinicius Leite

17 May 2019

Na presente dissertação, o comportamento eletroquímico da nitrosamina aromática N-Nitrosodifenilamina (NDPhA) foi caracterizado em eletrodo de carbono vítreo (GCE) em meio aquoso através de técnicas eletroanalíticas e espectroscópicas. Para tal, propôs-se um mecanismo de oxidação em quatro etapas envolvendo quatro elétrons e quatro prótons, assim como de redução em três ou quatro etapas, dependendo do pH do meio, também envolvendo quatro elétrons e quatro prótons no total. Diferentes eletrodos de carbono (GCE e GPUE) foram comparados e caracterizados eletroquimicamente através de técnicas cronocoulométricas e voltamétricas, e microscopia de imagem (Microscopia Eletrônica de Varredura e Microscopia de Força Atômica) com objetivo de aplicá-los na quantificação de NDPhA em amostras de urina. Após otimização das condições experimentais, o GPUE demonstrou-se ser mais sensível que o GCE apresentando uma faixa linear de 2,5 a 17,5 &mu;mol L-1, com sensibilidade igual a 5,50 &mu;A L &mu;mol-1 cm-2, coeficiente de correlação igual a 0,9998 e limite de detecção igual a 0,27 /&mu;mol L-1, apresentando sensibilidade cinco vezes maior e limite de detecção calculado cerca de 20 vezes menor. O preparo do eletrodo e a resposta do mesmo se mostraram reprodutível ao longo do tempo. Ademais, o método desenvolvido foi aplicado em uma amostra de urina sintética, utilizando o método de adição e recuperação, e foi possível concluir que esse processo pode ser aplicado a essa amostra com 95% de confiança. / In the present dissertation, the electrochemical behaviour of the aromatic nitrosamine N-Nitrosodiphenylamine (NDPhA) on the Glassy Carbon Electrode (GCE) in aqueous medium was characterized through electroanalytical and spectroscopic techniques. A four-step oxidation mechanism was proposed involving four electrons and four protons, as well as a reduction in three or four steps, depending on the pH of the medium, also involving four electrons and four protons in total. Different carbon electrodes (GCE and GPUE) were compared and characterized electrochemically by chronocoulometry and voltammetric techniques, and image microscopy (Scanning Electron Microscopy and Atomic Force Microscopy) with the objective of applying them to the quantification of NDPhA in urine samples. After optimization of the experimental conditions, the GPUE presented to be more sensitive than the CGE with a linear range of 2.5 to 17.5 &mu;mol L-1, with sensitivity equal to <br /> 5.50 &mu;A L &mu;mol-1 cm-2, correlation coefficient equal to 0.9998 and detection limit equal to 0.27 / &mu;mol L-1, with sensitivity five times higher and detection limit calculated about 20 times lower. The preparation of the electrode and its response proved to be reproducible over time. In addition, the developed method was applied in a synthetic urine sample, using the addition and recovery method, and it was possible to conclude that this process can be applied to this sample with 95% confidence.

eletrodo de carbono vítreo

glassy carbon electrode

N-nitrosodifenilamina

N-nitrosodiphenylamine

nitrosaminas

nitrosamines

ELETRODOS DE PASTA DE CARBONO VÍTREO MODIFICADOS COM NANOPARTÍCULAS DE OURO ESTABILIZADAS EM PORFIRANA: POTENCIAIS APLICAÇÕES PARA A DETECÇÃO DO AGENTE ANTITUMORAL 5-FLUOROURACIL

Lima, Dhésmon

26 February 2016

Made available in DSpace on 2017-07-24T19:37:54Z (GMT). No. of bitstreams: 1 Dhesmon Lima.pdf: 3726533 bytes, checksum: d3be37b6257d9747cd2404bc48091086 (MD5) Previous issue date: 2016-02-26 / In this work, glassy carbon paste electrodes (GCPE) were modified with porphyran- capped gold nanoparticles (GCPE/AuNps-PFR) and applied for the determination of an anticancer drug, 5-fluorouracil (5-FU), by using differential pulse voltammetry (DPV). The PFR polysaccharide was isolated from commercial Nori seaweed, and its characterization was carried out by FTIR and 13C-NMR as well as by determining its total sugar and sulfate contents, which resulted in 82.8% and 11.9%, respectively. These experiments confirmed the chemical identity and purity of the extracted polysaccharide, which was used as reducing and capping agent to the synthesis of gold nanoparticles (AuNps-PFR). The temperature and the concentrations of AuCl4- and PFR for the AuNps-PFR synthesis were optimized by a 23 full factorial design including a central point assayed in triplicate. The smallest particles were produced with 128.7 nm by employing a temperature of 70 °C and concentrations of 2.5 mmol L-1 for AuCl4- and 0.25 mg mL-1 for PFR. The characterization of the AuNps-PFR nanocomposite was performed by UV-VIS, FTIR and DLS spectroscopies, FESEM, zeta potential and XRD. The UV-VIS spectrum showed an absorption at 524 nm (plasmon band), with no significant changes in its shape and absorption frequency for 90 days. This observation suggests that the AuNps-PFR are stable in suspension, which is in good agreement with the zeta potential of -30.5 mV obtained for the sample. The FTIR spectrum revealed that interactions between the AuNps and the PFR may exist, as a consequence of displacements in the frequency of the bands in the AuNps-PFR spectrum compared to that obtained for the PFR individually. The electrochemical characterization of the porphyran modified GCPE (GCPE/PFR) was carried out by cyclic voltammetry and electrochemical impedance spectroscopy in the presence of the Fe(CN)63-/4- probe, revealing that the polysaccharide had a positive effect on the electrode response, since higher current values and a lower charge transfer resistance for the electrochemical probe redox process were achieved compared to the unmodified GCPE. Even better responses were obtained after the modification of the GCPE with the synthetized AuNps-PFR, as a consequence of the high electrical conductivity and large surface area displayed by the nanocomposite. The 5-FU was oxidized on the GCPE/AuNps-PFR surface according to an irreversible, pH dependent and diffusion controlled mechanism, showing an anodic wave at +1,1 V in BR buffer solution 0.04 mol L-1. The highest current value for 5-FU determination was achieved in BR buffer with pH 8.0, by DPV; therefore, this value was chosen for the further analysis. A linear relationship was observed between the anodic peak potential and the pH of the medium with a slope of -69 mV pH-1, demonstrating that the same number of protons an electrons participate in the 5-FU oxidation mechanism. The GCPE/AuNps-PFR exhibited a linear relationship between the peak current and 5-FU concentration over the range of 29.9 to 234.0 μmol L-1, with low detection (0.66 μmol L-1) and quantification limits (2.22 μmol L-1). Besides the good sensitivity for detecting 5-FU, the modified electrode showed reproducibility, and its response was not influenced by interfering compounds such as glucose, urea, albumin, ascorbic acid, Na+ and K+, suggesting its potential application to determine 5-FU in biologic matrices. The practical utility of the developed sensor was demonstrated for the quantification of 5-FU in pharmaceutical injection sample. A good average recovery percentage of 104.0% was achieved, with an acceptable relative standard deviation of 2.25%. So, these results could confirm the promising analytical performance of the modified electrode for the electroanalysis of 5-FU in real samples. / Neste trabalho, eletrodos de pasta de carbono vítreo (EPCV) foram modificados com nanopartículas de ouro estabilizadas no polissacarídeo sulfatado porfirana (PFR) e aplicados para a determinação do agente antitumoral 5-fluorouracil (5-FU), utilizando voltametria de pulso diferencial (VPD). A PFR foi extraída a partir de alga Nori comercial, e sua caracterização foi realizada por FTIR, RMN-13C e pela determinação dos teores de carboidratos totais e de grupos SO42-, os quais resultaram em 82,8% e 11,9%, respectivamente. Tais experimentos confirmaram a pureza e a identidade química do polissacarídeo extraído, que foi empregado como agente redutor e estabilizante para a síntese de nanopartículas de ouro (AuNps-PFR). A temperatura, a concentração do precursor AuCl4- e a concentração de PFR empregadas para a síntese das AuNps-PFR foram otimizadas por meio de um planejamento fatorial 23 com triplicata no ponto central. Um menor tamanho de partícula (128,7 nm) foi alcançado ao se empregar uma temperatura de 70 °C e concentrações de AuCl4- e PFR iguais a 2,5 mmol L-1 e 0,25 mg mL-1, respectivamente. As AuNps-PFR obtidas foram caracterizadas pelas espectroscopias UV-VIS, FTIR e DLS, MEV-FEG, potencial zeta e DRX. O espectro de UV-VIS mostrou uma banda em 524 nm (banda plasmon), que não apresentou variações significativas na forma e frequência de absorção durante 90 dias. Tais observações sugeriram que as AuNps-PFR são estáveis em suspensão, o que corrobora com o potencial zeta de -30,5 mV obtido para a mesma. O espectro de FTIR evidenciou a existência de interações entre as AuNps e a PFR, devido a deslocamentos das bandas apresentadas no espectro das AuNps-PFR em relação ao obtido para a PFR. A caracterização eletroquímica do EPCV/PFR, realizada por voltametria cíclica (VC) e espectroscopia de impedância eletroquímica em meio da sonda Fe(CN)63-/4-, evidenciou que o polissacarídeo conferiu aos eletrodos maiores valores de corrente e menor resistência à transferência de carga para o processo redox da sonda eletroquímica em comparação aos eletrodos não modificados. Respostas de corrente ainda maiores foram obtidas ao se empregar o EPCV/AuNps-PFR, como uma consequência da elevada condutividade e alta área superficial apresentada pelas nanopartículas. Por VC, verificou-se que o 5-FU foi oxidado irreversivelmente na superfície do EPCV/AuNps-PFR segundo um mecanismo dependente do pH e controlado por difusão, apresentando um processo anódico em +1,1 V em tampão BR 0,04 mol L-1. O pH do tampão BR para a determinação de 5-FU foi otimizado por VPD, tendo-se observado um máximo de corrente em pH 8,0, valor empregado para a obtenção das curvas analíticas. A relação linear observada entre o potencial de pico e o pH do meio com inclinação de -69,0 mV pH-1 evidenciou que o mesmo número de prótons e elétrons estão envolvidos no processo de oxidação. O EPCV/AuNps-PFR apresentou linearidade de resposta na faixa de 29,9 a 234,0 μmol L-1 de 5-FU, com limites de detecção e de quantificação iguais a 0,66 e 2,22 μmol L-1, respectivamente. Além da boa sensibilidade ao 5-FU, o EPCV/AuNps-PFR apresentou reprodutibilidade de resposta, e não sofreu interferência significativa de compostos como glicose, ácido ascórbico, ureia, albumina e íons Na+ e K+, sugerindo sua potencial aplicação para a determinação de 5-FU em matrizes biológicas. O eletrodo modificado foi aplicado para a quantificação do 5-FU em formulação farmacêutica comercial injetável, tendo-se obtido uma porcentagem média de recuperação igual a 104,0, com desvio padrão relativo dentro dos limites aceitáveis (2,25%). Confirma-se, deste modo, o bom desempenho analítico do sensor e da metodologia voltamétrica desenvolvida para a eletroanálise do 5-FU em amostras reais.

eletrodo de pasta de carbono vítreo

nanopartículas de ouro

porfirana

voltametria

5-fluorouracil

glassy carbon paste electrode

gold nanoparticles

porphyran

voltammetry

5-fluorouracil