Hur fungerar en glaselektrod?

Claesson, Jenny

January 2013

To understand the glass electrode needs knowledge from more than one level. The construction ofthe glass electrode is one part, an other is the composition and structure of glass. The Nernstequation have an important role, but also the sources of errors in the analysis and the calibration ofthe glass electrode. Focus for this article is how the glass electrode really works and how Gibbs freeenergy made the potential dependent of the concentration of H+and gives the logarithm to thefunction. Nikolskii's ion exchange theory starts to explain the question about how the potentialcreates and Baucke's dissociation mechanism made it more explicit. The big different in theequations from the both theories respectively is the meaning of the constants, but for practical useof the glass electrode in analysis it is not important when the value of the constant is given bycalibration. This is not an excuse for that fact that the dissociation mechanism is more completethan the ion exchange theory in the understanding of the glass electrode. / För att förstå hur glaselektroden fungerar krävs kunskap från mer än ett plan. Glaselektrodenskonstruktion är en del, glasets kemiska struktur en annan. Nernst ekvationen spelar en viktig roll,men även felkällorna i de analyser som görs med glaselektrod, (vanligtvis pH-mätning), samtkalibreringen av glaselektroden. I den här uppsatsen ligger fokus på hur glaselektroden faktisktfungerar och hur Gibbs fria energi gör potentialen beroende av koncentrationen vätejoner och tillförlogaritmen i funktionen för glaselektroden. Nikolskii's ion exchange theory påbörjar förklaringen avpotentialens uppkomst och Baucke's dissociation mechanism gör den tydligare. Skillnaden mellanrespektive teori och dess matematiska funktion är konstantens innebörd och betydelse, men för denpraktiska användningen av glaselektroden till analyser är detta av mindre vikt då konstantens värdefås genom kalibrering. Detta är dock ingen ursäkt för det faktum att the dissociation mechanism geren mer fullständig förklaring och ökad förståelse för hur glaselektroden fungerar än the ionexchange theory.

pH

glassmembran

electrode

Nikolskii's ion exchange theory

Baucke's dissociation mechanism

pH

glasmembran

elektrod

Nikolskii's ion exchange theory

Baucke's dissociation mechanism

Elektroerozívní obrábění při výrobě tvarových dutin / The electrical discharge machining in production of shaped moulds

Kalenda, Jan

January 2009

In this diploma thesis is theoretically written about the production of shaped cavities using electroerosive sinking. The possibilities of usage and the production of electrodes for own usage likewise development of technology, tools and machines for electroerosive machining. The quality of machined surface and surface layer using own process of electroerosive sinking of shaped cavities are as well mentioned in this project.

Výzkum elektrochemických a materiálových charakteristik nově vyvinutých vrstevnatých elektrodových materiálů pro lithno-iontové baterie / The research on electrochemical and material characteristics new developed layered electrode materials for lithium-ion batteries

Kratochvíl, Miroslav

January 2009

The diploma thesis deals with electrode materials for lithium-ions accumulators, concretely layered materials prepared via new methods. The main objective of this work is dealing with new procedures prepare electrodes of newly developed layered electrode materials and subsequently their measure. Another challenge was a theoretical analysis of newly developed layered electrode materials for positive and negative electrodes and their preparation of new procedures. In this work the detailed procedures for the preparation of individual electrodes, electrolytes and other issues associated with these preparations. There were describing batteries of general, primary and secondary lithium cells, fuel cells, Lithium-ion batteries, layered materials forming the electrodes and of course the history these cells. Practical work is focused on separate measurements layered electrode materials prepared by new processes and assessment of results for individual layered materials. In the practical part has been made that the newly prepared layered electrode materials offer higher capacity and voltage.

Lokalizace skalpových EEG elektrod ve strukturálních MRI datech / Localization of EEG scalp electrodes in structural MRI data

Koutek, Petr

January 2016

The objective of this thesis is to design an algorithm used for localization of scalp electrodes in MRI structural data. The algorithm is based on fact that electrodes are visible on visualized head surface. The surface of a head is subdivided into smaller fragments, which are transformed from 3D space into 2D. The electrodes are then located in 2D space by use of registration techniques. The proposed algorithm is able to correctly locate up to 73% EEG electrodes, assuming that the subject has short hair. In case when a subject has long hair, the portion of correctly detected electrodes is 49%. The probability of false detection is 22% when the object is short-haired and 35% when long-haired. The algorithm should facilitate the process of EEG electrodes localization during examinations combining imaging modalities of type EEG and MRI.

Optimalizace rekonstrukce obrazu v elektrické impedanční tomografii / Optimizing Image Reconstruction in Electrical Impedance Tomography

Dušek, Jan

January 2022

Tato disertační práce pojednává o optimalizaci algoritmů pro rekonstrukci obrazu neznámé měrné vodivosti z měřených dat pořízených elektrickou impedanční tomografií. Danou problematiku zde věcně vymezuje několik různých prvků, zejména pak stručný matematický popis dopředné a inverzní úlohy řešené různými přístupy, metodika měření a pořizování dat pro rekonstrukci a přehled dostupných numerických nástrojů. Uvedenou charakteristiku rozšiřuje rozbor optimalizací parametrů modelu ovlivňujících přesnost rekonstrukce, způsoby paralelního zpracování algoritmů a souhrn dostupných zařízení pro měření tomografických dat. Na základě získaných poznatků byla navržena optimalizace parametrů matematického modelu, která umožňuje jeho velmi přesný návrh dle měřených dat. V této souvislosti dochází ke snížení nejistoty rekonstrukce rozložení konduktivity. Pro zefektivnění procesu získávání dat bylo navrženo zařízení k automatizaci tomografie s důrazem na cenovou dostupnost a snížení nejistoty měření. V oblasti tvorby numerického modelu byly dále zkoumány možnosti užití otevřených a uzavřených domén pro různé metody regularizace a hrubost sítě, a to s ohledem na velikost chyby rekonstruované konduktivity a výpočetní náročnost. Součástí práce je také paralelizace subalgoritmů rekonstrukce s využitím vícejádrové grafické karty. Předložené výsledky mají přímý vliv na snížení nejistoty rekonstrukce (optimalizací počáteční hodnoty konduktivity, rozmístění elektrod a tvarové deformace domény, regularizačních metod a typu domén) a urychlení výpočtů paralelizací algoritmů, přičemž výzkum byl podpořen vlastním návrhem jednotky pro automatizaci tomografie.

An Ion-Selective Electrode for Detection of Ammonium in Wastewater Treatment Plants / En jonselektiv elektrod för detektion av ammonium i reningsverk

Berg, Josephine

January 2021

Att följa ammonium i reningsverk är avgörande för att förbättra reningsprocessen och kontrollera flödet av föroreningar ut till ekosystemet. Jonselektiva elektroder (ion-selective electrodes, ISEs) är en lovande teknik inom området, där polymermembran baserade på nonactin är de mest studerade membranen för ammoniumsensorer. Membranet droppas tillsammans med ett jon-till-elektron transducerande material på ett elektrodsubstrat av grafit eller glasartat kol. Nonactin-baserade jonselektiva elektroder har typiskt en detektionsgräns inom storleksordningen 10-5 M, men uppvisar betydande kaliuminterferenser. Ett elektrodsystem baserat på grafitelektroder, inkluderande en ISE och en referenselektrod (RE), studerades i detta examensarbete. De jonselektiva elektroderna producerades genom att droppa jon-till-elektron trandsducerande funktionella flerväggiga kolnanotuber (functional multiwalled carbon nanotubes, f-MWCNTs) lösta i tetrahydrofuran (THF) och en membrancocktail innehållande polyvinylklorid (PVC), mjukgörare och nonactin löst i THF på grafitelektroder. Membranet täcktes sedan med en buffrad polyvinylalkohol (PVA) hydrogel med pH 7 och ett gas-permeabelt membran. Referenselektroderna producerades genom att droppa en membrancocktail av polyvinylbutyral (PVB) mättat med NaCl på grafitelektroder. Jonselektiva elektroder med f-MWCNTs som jon-till-elektron transducerande lager och ett PVC-baserat ammonium-selektivt membran med nonactin producerades framgångsrikt. Elektroderna hade en detektionsgräns i storleksordningen 10-5 M, vilket kan jämföras med tidigare artiklar publicerade inom området. Ytterligare producerades PVB-baserade referenselektroder mättade med NaCl framgångsrikt. Referenselektroderna uppvisade små variationer när koncentrationer av olika salt varierades. Arbetet visade att det gaspermeabla membranet Hyflon AD i kombination med en PVA hydrogel inte var lämplig i den föreslagna konfigurationen, då hålrum formades i torkningsprocessen av det gaspermeabla membranet och membranet delaminerade. Det föreslogs att beteendet kunde vara en konsekvens av inkompatibilitet mellan PVC och det gaspermeable membranet, till följd av deras skillnad i polaritet. / Monitoring ammonium in wastewater is vital to improve the treatment process and monitor the release of the pollutant into the ecosystem. Ion-selective electrodes (ISEs) is a promising technique in the area where the ISE is often based on a polymeric membrane containing the ionophore nonactin. The polymeric ion-selective membrane is drop-cast onto graphite or glassy carbon electrode substrates together with an ion-to-electron transducing layer. Nonactin-based ISEs typically demonstrate a limit of detection (LOD) in the range of 10-5 M, but exhibit significant potassium interferences. A solid-state system based on graphite electrodes, including an ISE and a reference electrode (RE), was investigated in this study. The ISEs were produced by drop-casting ion-to-electron transducing functional multi-walled carbon nanotubes (f-MWCNTs) dispersed in tetrahydrofuran (THF) and a membrane cocktail comprising poly(vinyl chloride) (PVC), plasticizer, and nonactin dispersed in THF onto graphite electrodes. The membrane was then covered with a buffered poly(vinyl alcohol) (PVA) hydrogel of pH 7 and a gas-permeable membrane (GPM). The solid-state RE was produced by drop-casting a poly(vinyl butyral) (PVB) membrane cocktail saturated with NaCl onto the graphite electrode.  ISEs using f-MWCNTs as ion-to-electron transducers and a PVC-based ammonium-sensitive membrane with nonactin were successfully produced. The electrodes exhibited LODs in the range of 10-5 M, which is comparable to previous articles published on the subject. Additionally, PVB-based solid-state REs saturated with NaCl were successfully produced. The reference electrodes exhibited minor influences when varying the concentrations of various salts. The study showed that the GPM Hyflon AD combined with a PVA hydrogel was not suitable in this configuration, as air voids were formed in the drying process, and the membrane was easily delaminated. It was suggested that this behavior could be a consequence of the incompatibility of PVC and the GPM due to their difference in polarity.

jonselektiv elektrod

membran

ammonium

sensor

reningsverk

ion-selective electrode (ISE)

membrane

ammonium

sensor

wastewater treatment plant (WWTP)

Analytical Chemistry

Analytisk kemi

Stanovení butylhydroxyanisolu na elektrodách modifikovaných uhlíkovými nanotrubičkami / Determination of butylhydroxyanisole using electrodes modified by carbon nanotubes

Krejčová, Markéta

January 2015

This work was focused on study of a behaviour of the food additivum butylated hydroxyanisole on modified carbon electrodes by the voltammetric techniques - cyclic and differential pulse voltammetry. Glassy carbon and carbon paste electrode were used. Multiwalled carbon nanotubes (MWCNT) in combination with three different binders (acetonitrile, nafione or chitosane) were employed for the electrode modification. Carbon paste electrode was unable to modificate with film containing carbon nanotubes and acetonitrile, its active surface was treated only with nafione and chitosane film. All three mentioned modifications were applied in case of glassy carbon electrode. Butylated hydroxyanisole provided a significantly higher signal using electrodes modified with carbon nanotubes with all three binders in contrast to electrodes without any surface modification. The glassy carbon electrode with carbon nanotube / acetonitrile film on its surface appeared to be the most effective for analytical purposes. Voltammetric determination of butylated hydroxyanisole using this electrode provided a better defined and higher analytical signal and lower relative standard deviations in comparison with other ways of modification. The limit of detection of butylated hydroxyanisole obtained by cyclic voltammetry on glassy...

ELECTROCHEMICAL DETECTOR WITH ELECTRODES ARRAY AND ROTATING DISK / ELECTROCHEMICAL DETECTOR WITH ELECTRODES ARRAY AND ROTATING DISK

SAJDLOVÁ, Zuzana

January 2010

The thesis deals with the testing and optimization of hydrodynamic conditions of the electrochemical detector, which consists of a flow cell containing the electrochemical sensor with an array of electrodes. The flow cell includes a rotating disc-shaped component, which allows radial flow of analytes along the sensor electrodes. This principle imitates the rotating disk electrode, with the difference that here the electrodes are immobile. Hydrodynamic phenomena in this case are similar to RDE. Therefore, the theoretical part of my work deals with hydrodynamics and mass transfer for the well-described case of rotating disk electrode. It was found that in the current set-up under certain conditions, an analyte flowed back from the output cell channel to the sensor, even at the laminar flow. This causes a nonlinear response of the electrodes and their low reproducibility. The solution is to reduce the distance between the rotation component and the electrodes surface and reduce flow speed of analyzed liquid towards the sensor. A novel type of sensor with annular electrodes was designed and tested. It showed four times higher conversion rate of the analyte compared with the originally used AC9 electrochemical sensor having electrodes in the form of full circles lying on a circumference of a common circle. Based on calculations, conversion of the analyte on the plane electrode can be increased up to 100% when using this annular sensor, adjusting flow cell and reducing of the input flow rate. The detector was connected to the liquid chromatograph and its function was tested on two substances - ascorbic acid and dopamine. For the current detector these parameters were set: dynamic range, linearity, noise, detection limit, time constant and the temperature range at which the detector can be operated.

Elektrické výboje ve vodných a organických roztocích / Electric discharges in water and organic solutions

Klímová, Edita

January 2013

This work is focused on study of electrical discharges in liquids, especially in water solutions. Generation of the discharge in water solutions leads to simultaneous effect of UV radiation, shock waves, electrical field and most importantly, chemically reactive species. This can be utilized in many applications such as sterilization, degradation of organic waste products, lithotripsy or other medical applications. The experimental part is concentrated on a diaphragm arrangement of the reaction system. This means that the reactor is divided into two electrode reservoirs connected only through a small orifice in a dielectric barrier. This barrier is made of Macor® non-porous ceramics with thickness of 1 mm, with the diameter of the orifice 0.6 mm, in the first part of work. In the second part, ShapalTM-M ceramics of thickness 1.0 mm and orifice diameter 0.6 mm was used. The experimental part is divided into two sections. For both, NaCl is chosen as an electrolyte to set the initial conductivity of the tested solutions to the value of 400 S/cm. Supplied direct voltage is regulated to attain power of 100 W in the system. In the first part, effect of addition of chosen alcohols (ethanol, isopropylalcohol and glycerol) on the efficiency of the discharge in their water solutions is studied. For this purpose, a special glass reactor was designed and constructed. The efficiency of the discharge is measured by a spectroscopic determination of concentration of complex formed by a titanium reagent and hydrogen peroxide, which is generated during the discharge. The results show no positive effect of addition of extra OH group to the reaction through the alcohols. The use of isopropylalcohol causes even a significant decrease in the amount of hydrogen peroxide generated. The subject of the second part is a comparison of effect of different electrode materials on the discharge. The efficiency is measured by the same method as in the first part. Materials chosen were stainless steel, platinum, aluminium, copper and carbon. Each material shows different hydrogen peroxide production rate under the same parameters. The most perspective material seems to be carbon, as an inert material, that can be expected not to initiate any decomposition of hydrogen peroxide. The least favourable appears to be copper. When used, no production of hydrogen peroxide was observed in one of the electrode parts of the reactor.

Towards Affordable Sodium-Ion Batteries : Mechanochemical Synthesis and Electrochemical Assessment of Iron-Based Fluorophosphate Cathode Material

Juwita, Ratna

January 2023

An urgent transformation from fossil fuels to cleaner energy sources to combat climate change has led to the utilization of renewable energies like solar, wind, and tidal power. However, the intermittency of these sources hinders their wider implementation. To address this, large-scale electrical energy storage (EES) systems are needed. These systems store excess energy during periods of surplus and release it during peak demand, enhancing grid reliability. Secondary batteries have been developed as promising EES solutions due to their reliability, independence from weather, and ease of maintenance. While lithium-ion batteries (LIBs) are popular as secondary batteries, their limited lithium supply, and rising costs demand for cost-effective alternatives. This study focuses on developing sodium iron fluorophosphate (Na2FePO4F) as a promising cathode material for SIBs. Because of its iron-based composition, which is generated from sustainable sources, Na2FePO4F offers a potential solution to the cost and supply difficulties related with LIBs. However, challenges exist, including low electronic conductivity and inferior electrochemical performance. To address these challenges, this research explores mechanochemically assisted solid-state synthesis routes as a low-cost and environmentally friendly approach. The characterization and performance evaluation of Na2FePO4F (NFPF) and NFPF/C positive electrode materials for sodium-ion batteries (SIBs) were systematically investigated through a range of analytical techniques, including XRD, TGA, SEM-EDS, FT-IR, and Raman analyses. A single-step solid-state synthesis demonstrates effectiveness in producing NFPF and NFPF/C-positive electrode materials. Moreover, Fe2O3 nanoparticles serve as the primary iron source in the solid-state synthesis of iron-based fluorophosphate Na2FePO4F/C, successfully producing both NFPF pristine phase and NFPF carbon-coated active materials. Finally, a comparison between the two synthesis pathways reveals that the active material from single-step solid-state synthesis exhibits a superior initial discharge specific capacity of 74.24 mAh⋅g−1 at 0.005 C, outperforming the double-step solid-state synthesis. These findings can contribute to the development of affordable and sustainable energy storage solutions, offering alternatives to traditional LIBs. / En akut omvandling från fossila bränslen till renare energikällor för att bekämpa klimatförändringarna har lett till ett utnyttjande av förnybar energi som sol-, vind- och tidvattenkraft. Emellertid hindrar dessa källors intermittenser deras bredare genomförande. För att komma till rätta med detta behövs storskaliga system för lagring av elektrisk energi (EES). Dessa system lagrar överskottsenergi under perioder med överskott och släpper ut den under toppbelastning, vilket förbättrar nätets tillförlitlighet. Sekundära batterier har utvecklats som lovande EES-lösningar på grund av deras tillförlitlighet, väderberoende och enkla underhåll. Medan litiumjonbatterier (LIB) är populära som sekundära batterier, kräver deras begränsade litiumtillgång och stigande kostnader kostnadseffektiva alternativ. Denna studie fokuserar på att utveckla natriumjärnfluorfosfat (Na2FePO4F) som ett lovande katodmaterial för SIB. På grund av sin järnbaserade sammansättning, som genereras från hållbara källor, erbjuder Na2FePO4F en potentiell lösning på kostnads- och försörjningssvårigheter relaterade till LIB. Men det finns utmaningar, inklusive låg elektronisk konduktivitet och sämre elektrokemisk prestanda. För att möta dessa utmaningar undersöker denna forskning mekanokemiskt assisterade syntesvägar i fast tillstånd som ett billigt och miljövänligt tillvägagångssätt. Karakteriseringen och prestandautvärderingen av Na2FePO4F (NFPF) och NFPF/C positiva elektrodmaterial för natriumjonbatterier (SIB) undersöktes systematiskt genom en rad analytiska tekniker, inklusive XRD, TGA, SEM-EDS, FT-IR och Raman analyser. En enstegs solid state-syntes visar effektivitet vid framställning av NFPF och NFPF/C-positiva elektrodmaterial. Dessutom tjänar Fe2O3-nanopartiklar som den primära järnkällan i solid state-syntesen av järnbaserat fluorfosfat Na2FePO4F/C, vilket framgångsrikt producerar både NFPF orörd fas och NFPF kolbelagda aktiva material. Slutligen avslöjar en jämförelse mellan de två syntesvägarna att det aktiva materialet från enstegs-solid-state-syntes uppvisar en överlägsen initial urladdningsspecifik kapacitet på 74,24 mAh⋅g−1 vid 0,005 C, vilket överträffar dubbelstegs-solid-state-syntesen. Dessa resultat kan bidra till utvecklingen av prisvärda och hållbara energilagringslösningar, som erbjuder alternativ till traditionella LIB.

Sodium-ion batteries

electrical energy storage (EES)

iron oxide

positive electrode

material characterization

electrochemical

discharge capacity.

Natriumjonbatterier

elektrisk energilagring (EES)

järnoxid

positiv elektrod

materialkarakterisering

elektrokemisk

urladdningskapacitet

Materials Engineering

Materialteknik