Investigations Of Oxygen Reduction Reactions For Electrochemical Energy Storage And Conversion

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Investigations of Oxygen Reduction Reactions for Electrochemical Energy Storage and Conversion

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Author : Iromie A. Gunasekara
Publisher :
ISBN 13 :
Total Pages : 174 pages
Book Rating : 4.:/5 (948 download)

Book Synopsis Investigations of Oxygen Reduction Reactions for Electrochemical Energy Storage and Conversion by : Iromie A. Gunasekara

Download or read book Investigations of Oxygen Reduction Reactions for Electrochemical Energy Storage and Conversion written by Iromie A. Gunasekara and published by . This book was released on 2015 with total page 174 pages. Available in PDF, EPUB and Kindle. Book excerpt: High energy density portable power solutions have been of utmost importance for the advancement of modern day necessities such as data and voice communication, vehicular transportation, distributed power generation and storage of energy produced by sustainable power sources. Progress made in fuel cell and lithium-ion battery technologies over the past decade have opened opportunities to power electric and hybrid electric vehicles for long distance transportation. Alkaline membrane fuel cells (AEMFCs) are the new alternatives to proton exchange membrane fuel cells (PEMFCs), which require generous amounts of noble metal-based catalysts on their electrodes. Facile electrode kinetics on non-precious group metal catalysts in alkaline environments is the key factor which has promoted AEMFCs over PEMFCs. While the research on AEMFCs is vastly expanding, high energy density batteries are praiseworthy considering the high cost of hydrogen fuel. The state-of-the-art Li-ion batteries cannot reach the desirable capacity density to power electric vehicles capable of >300 miles on a single charge whereas Li-O2 batteries with a theoretical capacity more than ten times larger than that of Li-ion have become very promising for this application. Chapter 1 of this thesis provides a discussion of the background behind the fuel cell and battery technologies beyond Li-ion along with the electrochemical and analytical techniques employed throughout this investigation. The major deterrent to AEMFC technology is its performance decrease by means of carbonate exchange of the membrane when exposed to carbon dioxide. The second Chapter deals with a quantitative determination of the influence of carbonate ions in the alkaline membrane on interfacial electrode reactions and reactant transport through the membrane. A Pt microelectrode investigation conducted on a commercial anion exchange membrane (AEM) (Tokuyama, A201) showed rather close kinetics for oxygen reduction reaction (ORR) with and without carbonate exchange as well as with a perfluorinated proton exchange membrane analog such as Nafion®. Resolution of the mass transport into constituent components (diffusion coefficient and solubility) showed that the oxygen diffusion coefficient in the AEM exchanged with carbonate ions (CO32−) is lowered while the solubility remained unaffected. These results show remarkable agreement with polarization corrected fuel cell data, thus enabling a method to better resolve interfacial performance of an AEM fuel cell. We have also investigated the kinetics of hydrogen oxidation reaction (HOR) and methanol oxidation reaction (MOR) at the Tokuyama (A201/A901) anion exchange membrane /Pt microelectrode interfaces using solid state electrochemical cells. Diffusion of hydrogen molecules through the membrane was not influenced by the carbonate ions due to the smaller size of the gaseous molecule. However, hydrogen concentration in the anion exchange membrane is low in the presence of carbonate ions. Methanol diffusion is facilitated in the anion exchange polymer electrolyte due to its high water content. A change of the diffusion path length in carbonate polymer electrolytes caused methanol permeability to drop significantly. The kinetic parameters obtained for the AEM in the carbonate form suggests that both hydrogen and methanol oxidation reactions proceed through the carbonate pathway. Therefore, the kinetic parameters obtained are significantly lower than what were observed at the AEM in the hydroxide form. In the third Chapter I demonstrate that a microelectrode can be used as a diagnostic tool to determine O2 transport properties and redox kinetics in dimethyl sulfoxide (DMSO)–based electrolytes for non-aqueous Li-air batteries, and to elucidate the influence of ion-conducting salts on the O2 reduction reaction mechanism. Oxygen reduction/evolution reactions on a carbon microelectrode have been studied in dimethyl sulfoxide-based electrolytes containing Li+ and tetrabutylammonium ((C4H9)4N+) ions. Analysis of chronoamperometric current-time transients of the oxygen reduction reactions in the series of tetrabutylammmonium (TBA) salt-containing electrolytes of TBAPF6, TBAClO4, TBACF3SO3, or TBAN(CF3SO2)2 in DMSO revealed that the anion of the salt exerts little influence on O2 transport. Whereas steady-state ORR currents (with sigmoidal-shaped current-potential curves) were observed in TBA-based electrolytes, peak-shaped current-voltage profiles were seen in the electrolytes containing their Li salt counterparts. The latter response results from the combined effects of the electrostatic repulsion of the superoxide (O2−-) intermediate as it is reduced further to peroxide (O22−) low potentials and the formation of passivation films of the O2 reduction products at the electrode. Raman spectroscopic data confirmed the formation of non-conducting Li2O2 and Li2O on the electrode surface at different reduction potentials in Li salt solutions. Out of the four lithium salt-containing electrolytes studied, namely LiPF6, LiClO4, LiCF3SO3, or LiN(CF3SO2)2 in DMSO, the LiCF3SO3/DMSO solution revealed the most favorable ORR kinetics and the least passivation of the electrode by ORR products. The influence of lithium salts on O2 reduction reactions (ORR) in 1, 2-dimethoxyethane (DME) and tetraethylene glycol dimethyl ether (TEGDME) has been investigated in Chapter 4. Microelectrode studies in a series of tetrabutylammonium salt (TBA salt)/DME-based electrolytes showed that O2 solubility and diffusion coefficient are not significantly affected by the electrolyte anion. The ORR voltammograms on microelectrodes in these electrolytes exhibited steady-state limiting current behavior. In contrast, peak-shaped voltammograms were observed in Li+-conducting electrolytes suggesting a reduction of the effective electrode area by passivating ORR products as well as migration-diffusion control of the reactants at the microelectrode as observed in DMSO-based electrolytes. FT-IR spectra have revealed that Li+ ions are solvated to form solvent separated ion pairs of the type Li+(DME)nPF6− and Li+(TEGDME)PF6− in LiPF6-based electrolytes. On the other hand, the contact ion pairs (DME)mLi+(CF3SO3−) and (TEGDME)Li+(CF3SO3−) appear to form in LiSO3CF3-ontaining electrolytes. In the LiSO3CF3-based electrolytes, the initial ORR product, superoxide (O2−), is stabilized in solution by forming [(DME)m−1(O2−)]Li+(CF3SO3−) and [(TEGDME)(O2−)]Li+(CF3SO3−) complexes. These soluble superoxide complexes are able to diffuse away from the electrode surface reaction sites to the bulk electrolyte in the electrode pores where they decompose to form Li2O2. This explains the higher capacity obtained in Li/O2 cells utilizing LiCF3SO3/TEGDME electrolytes. In Chapter 5 the synthesis of iron(II) phathlaocyanine (FePC)-based catalysts is presented. FePC embedded in a carbon support was heat-treated at a series of temperatures (300oC, 600oC and 800oC) and characterized by means of several spectroscopic and electrochemical techniques. Catalytic oxygen reduction recorded in the low Donor Number acetonitrile (MeCN)-based electrolytes have shown that the oxygen reduction reaction (ORR) mechanism is modified at the catalyst surface. Redox electrochemistry of FePC recorded in argon saturated electrolytes has confirmed that the iron is in the Fe(I) state at the O2 reduction potential in these electrolytes which is capable of stabilizing the superoxide leading to an inner[nil]Helmholtz plane electron transfer reaction. In high Donor Number DMSO[nil]based electrolytes the ORR was not influenced by the catalyst and this has been attributed to the oxidation state of iron being Fe(II) at the superoxide forming potential. The superoxide formed in such conditions are stabilized by the DMSO solvated softer Lewis acid Li+ as the Li+(DMSO)n-O2− ion pair in solution. The ORR reaction in this electrolyte proceeds through an outer Helmholtz plane electron transfer process despite the presence of the FePC catalyst in the electrode. Catalyzed carbon electrodes treated at 300 and 600oC were successfully employed in the low Donor Number tetra ethylene glycol dimethyl ether (TEGDME)[nil]based electrolyte-containing Li-O2

Substrate Effects in Electrocatalysis

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Author : Holger Wolfschmidt
Publisher : Sudwestdeutscher Verlag Fur Hochschulschriften AG
ISBN 13 : 9783838131979
Total Pages : 116 pages
Book Rating : 4.1/5 (319 download)

Book Synopsis Substrate Effects in Electrocatalysis by : Holger Wolfschmidt

Download or read book Substrate Effects in Electrocatalysis written by Holger Wolfschmidt and published by Sudwestdeutscher Verlag Fur Hochschulschriften AG. This book was released on 2012 with total page 116 pages. Available in PDF, EPUB and Kindle. Book excerpt: Energy production, conversion and storage due to changed energy demand are essential challenges today. All energy related fields have to improve and rationalize their techniques and methods. In the case of electrochemical energy storage and conversion the electrolysis and the fuel cell technology play important roles in the energy flux. Fuel cells convert chemical energy into electricity which is possible by separating the oxidation and reduction reactions when oxidizing a fuel. Electrolyzers convert electricity into chemical energy. Depending on the reaction pathway and the reaction partners a fairly high activation barrier is given. Catalysts lower these barriers and therefore promote the reactions. In general, noble metal catalysts such as platinum or platinum containing alloys are the best known catalysts especially for low temperature applications, e.g. polymer electrolyte fuel cells. In this context, the hydrogen evolution/hydrogen oxidation, oxygen reduction and methanol oxidation are under detailed investigation. Starting from a fundamental point of view model nanostructured surfaces were used to investigate their catalytic reactions towards the above mentioned reaction.

Electrochemical Studies of Oxygen Reduction for Aprotic Lithium-oxygen Batteries

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Author : David Gator Kwabi
Publisher :
ISBN 13 :
Total Pages : 175 pages
Book Rating : 4.:/5 (958 download)

Book Synopsis Electrochemical Studies of Oxygen Reduction for Aprotic Lithium-oxygen Batteries by : David Gator Kwabi

Download or read book Electrochemical Studies of Oxygen Reduction for Aprotic Lithium-oxygen Batteries written by David Gator Kwabi and published by . This book was released on 2016 with total page 175 pages. Available in PDF, EPUB and Kindle. Book excerpt: Understanding oxygen electrochemistry lies at the heart of enabling many advanced energy storage and conversion technologies such as fuel cells, electrolyzers and metal-air batteries. Aprotic Li-02 electrochemistry is receiving much attention in this regard, as the Li-0 2 battery theoretically offers higher energy densities than conventional Li-ion systems at potentially lower cost. This thesis explores the relationship between the energetics of 02 redox processes, and nucleation, growth, and reactivity of Li-O products in Li-02 batteries. Using a combination of rotating disk techniques and first principles calculations, we first assess the influence of 02- and Li+ ion solvation on the energetics of 02/02- and Li+/Li redox processes. By combining these results with measurements of the redox potential of the Li+-02 reaction intermediate, we show that both the coupling strength and solubility of the Li-0 complex are rationalized by the combined solvation of Li+ and 02- ions, with greater combined solvation increasing solubility but decreasing coupling energy, respectively. We next extend these results to studying the influence of applied potential and Li'-0 solvation on the participation of soluble and solid species during Li202 growth, using the rotating ring disk electrode (RRDE) and electrochemical quartz crystal microbalance (EQCM) methods, respectively. As the applied potential increases, the reaction mechanism for Li20 2 formation switches from solution to surface-mediated, with the most likely pathways being Li+-02- disproportionation and 2e- transfer to 02, respectively. These insights are applied to understanding nucleation and growth of Li 20 2 in Li-02 batteries, using high surface area carbon-based electrodes as model systems. We first report, for the first time, the formation of large ~ 300 nm donut-shaped particles of Li20 2 at high applied potentials during Li-02 discharge, and smaller particles (

Graphene Surfaces

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Author : Karim Kakaei
Publisher : Academic Press
ISBN 13 : 0128145242
Total Pages : 456 pages
Book Rating : 4.1/5 (281 download)

Book Synopsis Graphene Surfaces by : Karim Kakaei

Download or read book Graphene Surfaces written by Karim Kakaei and published by Academic Press. This book was released on 2018-10-09 with total page 456 pages. Available in PDF, EPUB and Kindle. Book excerpt: Graphene Surfaces: Particles and Catalysts focuses on the surface chemistry and modification of graphene and its derivatives from a theoretical and electrochemical point-of-view. It provides a comprehensive overview of their electronic structure, synthesis, properties and general applications in catalysis science, including their relevance in alcohols and their derivatives oxidation, oxygen reduction, hydrogen evolution, energy storage, corrosion protection and supercapacitors. The book also covers emerging research on graphene chemistry and its impact. Chemical engineers, materials scientists, electrochemists and engineers will find information that will answer their most pressing questions on the surface aspects of graphene and its effect on catalysis. Serves as a time-saving reference for researchers, graduated students and chemical engineers Equips the reader with catalysis knowledge for practical applications Discusses the physical and electrochemical properties of graphene Provides the most important applications of graphene in electrochemical systems Highlights both experimental and theoretical aspects of graphene

Electrochemical Reduction of Carbon Dioxide

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Author : Jinli Qiao
Publisher : CRC Press
ISBN 13 : 1138032093
Total Pages : 468 pages
Book Rating : 4.1/5 (38 download)

Book Synopsis Electrochemical Reduction of Carbon Dioxide by : Jinli Qiao

Download or read book Electrochemical Reduction of Carbon Dioxide written by Jinli Qiao and published by CRC Press. This book was released on 2016-07-06 with total page 468 pages. Available in PDF, EPUB and Kindle. Book excerpt: For Researchers, Students, Industrial Professionals, and ManufacturersElectrochemical Reduction of Carbon Dioxide: Fundamentals and Technologies is your guide to improved catalytic performance in the electrochemical reduction of carbon dioxide (CO2). Written by electrochemical energy scientists actively involved in environmental research and develo

Mechanistic Studies and Applications of Oxygen Activation for Energy Conversion and Storage

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Author : Linh Khanh Tran
Publisher :
ISBN 13 :
Total Pages : 234 pages
Book Rating : 4.2/5 (98 download)

Book Synopsis Mechanistic Studies and Applications of Oxygen Activation for Energy Conversion and Storage by : Linh Khanh Tran

Download or read book Mechanistic Studies and Applications of Oxygen Activation for Energy Conversion and Storage written by Linh Khanh Tran and published by . This book was released on 2022 with total page 234 pages. Available in PDF, EPUB and Kindle. Book excerpt: This dissertation discusses the applications and mechanistic studies of oxygen activation in energy conversion and storage, specifically in a redox flow battery (RFB) system and a fuel cell system. Chapter 1 provides a brief introduction of redox flow batteries, in which the history, the state-of-the-art, and the criteria for an ideal RFB system are presented. Chapter 2 explores two highly soluble and scalable ferrocenyl derivatives, FcNCl and FcNHCl, as negolytes to couple with the oxygen reduction reaction (ORR)/oxygen evolution reaction (OER) as posolyte. By testing via long cycling constant potential and constant current electrolyses, the Fc-air RFBs have established their capability as stable, inexpensive, and efficient electrical energy storage devices. Chapter 3 aims to improve the previous ferrocenes by modifying the cyclopentadienyl rings with electron donating groups. Fc8NHCl and PMFcNCl deliver RFBs with cell potentials above 1.0 V. Upon long cycling, Fc8NHCl has shown that it can deliver high round-trip energy efficiency without any decomposition over time. Chapter 4 introduces a non-precious metal alternative to Pt for activation of oxygen in ORR, Co[10-DMIC], which is the only unadorned, monomeric cobalt tetrapyrrole that could drive the production of H2O efficiently. Chapter 5 elucidates the unique mechanism followed by Co[10-DMIC] via cryogenic UV-visible spectroscopy and computational calculations. Chapter 6 extends on the [10-DMIC] scaffold, by substituting the dimethyl groups with diphenyl and methylphenyl groups, the new cobalt tetrapyrroles can switch their selectivies towards H2O2 production.

Proceedings of the Second Symposium on Electrode Materials and Processes for Energy Conversion and Storage

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Author : Supramaniam Srinivasan
Publisher :
ISBN 13 :
Total Pages : 668 pages
Book Rating : 4.:/5 (43 download)

Book Synopsis Proceedings of the Second Symposium on Electrode Materials and Processes for Energy Conversion and Storage by : Supramaniam Srinivasan

Download or read book Proceedings of the Second Symposium on Electrode Materials and Processes for Energy Conversion and Storage written by Supramaniam Srinivasan and published by . This book was released on 1987 with total page 668 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Rotating Electrode Methods and Oxygen Reduction Electrocatalysts

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Author : Wei Xing
Publisher : Elsevier
ISBN 13 : 0444633286
Total Pages : 323 pages
Book Rating : 4.4/5 (446 download)

Book Synopsis Rotating Electrode Methods and Oxygen Reduction Electrocatalysts by : Wei Xing

Download or read book Rotating Electrode Methods and Oxygen Reduction Electrocatalysts written by Wei Xing and published by Elsevier. This book was released on 2014-03-26 with total page 323 pages. Available in PDF, EPUB and Kindle. Book excerpt: Rotating Electrode Methods and Oxygen Reduction Electrocatalysts provides the latest information and methodologies of rotating disk electrode and rotating ring-disk electrode (RDE/RRDE) and oxygen reduction reaction (ORR). It is an ideal reference for undergraduate and graduate students, scientists, and engineers who work in the areas of energy, electrochemistry science and technology, fuel cells, and other electrochemical systems. Presents a comprehensive description, from fundamentals to applications, of catalyzed oxygen reduction reaction and its mechanisms Portrays a complete description of the RDE (Rotating Disc Electrode)/RRDE (Rotating Ring-Disc Electrode) techniques and their use in evaluating ORR (Oxygen Reduction Reaction) catalysts Provides working examples along with figures, tables, photos and a comprehensive list of references to help understanding of the principles involved

Fundamentals of Energy Storage and Conversion

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Author : Daniel Scherson
Publisher : The Electrochemical Society
ISBN 13 : 1566776759
Total Pages : 227 pages
Book Rating : 4.5/5 (667 download)

Book Synopsis Fundamentals of Energy Storage and Conversion by : Daniel Scherson

Download or read book Fundamentals of Energy Storage and Conversion written by Daniel Scherson and published by The Electrochemical Society. This book was released on 2008-11 with total page 227 pages. Available in PDF, EPUB and Kindle. Book excerpt: The papers included in this issue of ECS Transactions were originally presented in the symposium ¿Fundamentals of Energy Storage and Conversion¿, held during the 213th meeting of The Electrochemical Society, in Phoenix, Arizona from May 18 to 23, 2008.

Theoretical and Experimental Aspects of Electrocatalysis of the Oxygen Reduction Reaction and Related Systems

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Author : Nicholas Stefan Georgescu
Publisher :
ISBN 13 :
Total Pages : 208 pages
Book Rating : 4.:/5 (1 download)

Book Synopsis Theoretical and Experimental Aspects of Electrocatalysis of the Oxygen Reduction Reaction and Related Systems by : Nicholas Stefan Georgescu

Download or read book Theoretical and Experimental Aspects of Electrocatalysis of the Oxygen Reduction Reaction and Related Systems written by Nicholas Stefan Georgescu and published by . This book was released on 2017 with total page 208 pages. Available in PDF, EPUB and Kindle. Book excerpt: This thesis addresses theoretical aspects of systems of relevance to energy conversion, energy storage and the nitrogen cycle, as studied by rotating disk and ring-disk electrode techniques. In particular, the non-linear character of Koutecky-Levich plots often reported in the literature for the oxygen reduction reaction, ORR, and the hydrogen peroxide reduction, HPRR, have been ascribed to the interplay between mass transport of intermediates away from the electrode surface and electrode kinetics. Also assessed was the validity of XH2O2 , a popularfigure of merit used to rank the efficacy of electrocatalysts towards the ORR. In another set of studies, numerical simulations were performed to determine the amount of superoxide produced at the disk of a rotating ring-disk electrode as detected by a functionalized concentric ring electrode.Also examined were systems involving partially-active surfaces involving in one case bromide adsorbed on Pt as a poisoning species for the ORR and HPR and bromide adsorption on Au as an electrocatalyst for the reduction of hexaaquairon(III) ion in aqueous electrolytes. In both cases, very small effects very found for bromide at small coverages. In related studies involving nanoparticles of electrocatalysts dispersed on otherwise inert supports, a full30theoretical analysis for thin films of such materials bonded to a rotating disk electrode yielded results which support the use of a modified Koutecky-Levich equation for the determination of rate constants for first order reactions.Finally, two further reactions of interest were studied, namely the bromide-bromine- tribromide reaction couple, where it was accurately predicted that negligible effects on the current would result from the formation of tribromide, as well as the reduction of hydroxylamine on adsorbed hemin on glassy carbon, for which a model was proposed that could account semiquantitatively for data collected with a RDE. Lastly, theoretical aspects of ohmic microscopy were investigated that served to validate interpretation of experimental data in terms of a primary current distribution.

Design and Development of Electrocatalysts and Their Microenvironments for Applications in Fuel Cells

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Author : Jose Andres Zamora Zeledon
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (133 download)

Book Synopsis Design and Development of Electrocatalysts and Their Microenvironments for Applications in Fuel Cells by : Jose Andres Zamora Zeledon

Download or read book Design and Development of Electrocatalysts and Their Microenvironments for Applications in Fuel Cells written by Jose Andres Zamora Zeledon and published by . This book was released on 2022 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Electrocatalysis plays a crucial role in a wide range of renewable and sustainable energy technologies, which are required to create a carbon-neutral or carbon-negative energy ecosystem, ultimately fostering the long-term prosperity of humankind. The oxygen reduction reaction (ORR) is key in electrochemical energy conversion and storage technologies such as fuel cells and metal-air batteries, which, for instance, have the potential to help decarbonize transportation and provide clean intermittent renewable energy storage. However, cheaper electrocatalyst materials with improved ORR activity, 4e--product selectivity, and stability are needed to deploy these promising technologies at a large scale. Anion exchange membrane fuel cells (AEMFCs) have emerged as a promising complementary alternative to the more mature proton exchange membrane fuel cells (PEMFCs) because the alkaline environment in AEMFCs allows for improved ORR kinetics and wider material stability compared to in the acidic conditions in PEMFCs. Moreover, diversifying ORR catalysts beyond conventional Pt-based materials is crucial for H2 FCs to achieve large scale deployment and thrive as a resilient and robust energy technology. Ag, which is two orders of magnitude cheaper than Pt, has emerged as a promising active, stable, and selective non-precious metal alkaline ORR catalyst. Moreover, Ag-bimetallics are an interesting class of materials for which density functional theory (DFT) modeling has predicted the possibility of intrinsically enhanced ORR kinetics. Ag-Cu, for instance, has already been shown to yield enhanced ORR active sites at certain surface compositions. Studying Ag-bimetallics in a well-controlled and systematic fashion is, therefore, crucial to developing material-property relationships that would aid in the design of optimal catalysts for the ORR and other important electrocatalytic reactions. In addition to catalyst material engineering, it is also important to study the electrolyte effects on electrocatalytic performance to design optimal electrochemical microenvironments. In this dissertation, I employ a wide range of complementary physical and electrochemical methods, in conjunction with DFT, to understand how to engineer high performing electrocatalysts. Specifically, I systematically synthesize, characterize, and test Ag-Pd and Ag-Mn alkaline ORR electrocatalysts, ultimately, establishing the fundamental material-property relationships attributed to the measured intrinsic catalyst performance as a function of composition and structure. The use of physical vapor deposition (PVD) is crucial for the systematic catalyst design and development in my work. Moreover, using PVD as a bridge between fundamental rotating disk electrode (RDE) and applied FC device studies, I systematically fabricate model ionomer-free Ag-Pd gas diffusion electrodes (GDEs) to investigate the performance of this material system in H2-O2 AEMFCs. Varying only the Ag:Pd alloy ratio, I find good agreement between the performance trends measured in the RDE and AEMFC configurations. In terms of electrocatalyst material engineering, in this work I develop Ag-based ORR electrocatalysts with tuned oxygen-adsorbate binding, affording state-of-the-art AEMFC performance. In addition, I also investigate the role of acid electrolyte anions on the ORR performance of Ag and Pd, as well as on the hydrogen and oxygen electrocatalysis performance of Pt. I find that performance varies as a function of electrolyte, that acid electrolyte anions effects are potential dependent, and that nitric acid affords improved electrolyte microenvironments conducive to improved performance compared to certain acids. By fundamentally understanding the interfacial processes responsible for the measured electrochemical performance, herein, I engineer high performing Ag-based ORR electrocatalysts and establish fundamental engineering principles to design optimal catalyst materials and catalyst--electrolyte microenvironments.

Carbons for Electrochemical Energy Storage and Conversion Systems

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Author : Francois Beguin
Publisher : CRC Press
ISBN 13 : 1420055402
Total Pages : 532 pages
Book Rating : 4.4/5 (2 download)

Book Synopsis Carbons for Electrochemical Energy Storage and Conversion Systems by : Francois Beguin

Download or read book Carbons for Electrochemical Energy Storage and Conversion Systems written by Francois Beguin and published by CRC Press. This book was released on 2009-11-18 with total page 532 pages. Available in PDF, EPUB and Kindle. Book excerpt: As carbons are widely used in energy storage and conversion systems, there is a rapidly growing need for an updated book that describes their physical, chemical, and electrochemical properties. Edited by those responsible for initiating the most progressive conference on Carbon for Energy Storage and Environment Protection (CESEP), this book undoub

Revealing Interfacial Reactions and Charge Transfer Kinetics in Electrochemical Energy Storage and Conversion

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Author : Yirui Zhang
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (139 download)

Book Synopsis Revealing Interfacial Reactions and Charge Transfer Kinetics in Electrochemical Energy Storage and Conversion by : Yirui Zhang

Download or read book Revealing Interfacial Reactions and Charge Transfer Kinetics in Electrochemical Energy Storage and Conversion written by Yirui Zhang and published by . This book was released on 2023 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Climate change demands the development of clean energy technologies. Renewable energy sources such as solar or wind energy are intermittent, and it is necessary to develop advanced energy storage and conversion devices to complete the sustainable eco-system, where Li-ion batteries and fuel cells promise a bright future. Batteries and fuel cells also play essential roles in electrifying transportation in replacement of internal combustion engines. Central to these electrochemical systems is the electrode-electrolyte interface, where (electro)chemical surface reactions or intercalation reactions occur, and its thermodynamic and kinetic properties determine the energy density, power density, and lifetime of the electrochemical devices. However, the molecular structures at the interface and how they promote or suppress the desired reactions remain unclear. Furthermore, microscopic-level understandings of reaction mechanisms and electrochemical processes are still lacking, hindering the rational design of electrode-electrolyte interfaces to improve the performance of electrochemical devices. This thesis focuses on the fundamental understanding of the interfacial (electro)chemical reaction mechanisms at the molecular level and charges transfer kinetics at the electrified interfaces. First, an in situ Fourier-transform infrared spectroscopy (FT-IR) method was developed to examine the parasitic reactions between carbonate electrolytes and lithium nickel, manganese and cobalt oxides (NMC) in Li-ion batteries, and unique evidence for dehydrogenation reactions on Ni-rich NMC was revealed, which accounted for interface impedance build-up and battery capacity fading. Based on the proposed mechanism, strategies to suppress battery degradation were further demonstrated and discussed. Next, the kinetic mechanism for Li-ion intercalation was investigated, and experimental evidence from a charge-adjusted electrochemical method showed that ion intercalation occurs by coupled ion-electron transfer (CIET), which governs the current-dependent maximum capacity and power density of intercalation batteries. Further, the thesis extended in situ interface characterization and kinetic models to electrocatalytic reactions central to fuel cell technologies. Protic ionic liquids with different acid dissociation constants in an interfacial layer were found to enhance the oxygen-reduction reaction (ORR), attributed to strengthened hydrogen bonds between ORR products and ionic liquids, revealed by in situ surface-enhanced infrared absorption spectroscopy (SEIRAS) and density functional theory (DFT) calculations. Promoting hydrogen bonding between interfacial water molecules also facilitated proton-coupled electron transfer (PCET) kinetics, resulting in favorable hydrogen evolution reaction (HER) in controllable organic confinements. This thesis has laid a solid foundation for the rational design of electrochemical interfaces employing the physical chemistry of electrodes and electrolytes, for next-generation electrochemical storage devices with improved energy and power density and cycle life.

Electrode Materials for Energy Storage and Conversion

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Author : Mesfin A. Kebede
Publisher : CRC Press
ISBN 13 : 1000457869
Total Pages : 518 pages
Book Rating : 4.0/5 (4 download)

Book Synopsis Electrode Materials for Energy Storage and Conversion by : Mesfin A. Kebede

Download or read book Electrode Materials for Energy Storage and Conversion written by Mesfin A. Kebede and published by CRC Press. This book was released on 2021-11-17 with total page 518 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book provides a comprehensive overview of the latest developments and materials used in electrochemical energy storage and conversion devices, including lithium-ion batteries, sodium-ion batteries, zinc-ion batteries, supercapacitors and conversion materials for solar and fuel cells. Chapters introduce the technologies behind each material, in addition to the fundamental principles of the devices, and their wider impact and contribution to the field. This book will be an ideal reference for researchers and individuals working in industries based on energy storage and conversion technologies across physics, chemistry and engineering. FEATURES Edited by established authorities, with chapter contributions from subject-area specialists Provides a comprehensive review of the field Up to date with the latest developments and research Editors Dr. Mesfin A. Kebede obtained his PhD in Metallurgical Engineering from Inha University, South Korea. He is now a principal research scientist at Energy Centre of Council for Scientific and Industrial Research (CSIR), South Africa. He was previously an assistant professor in the Department of Applied Physics and Materials Science at Hawassa University, Ethiopia. His extensive research experience covers the use of electrode materials for energy storage and energy conversion. Prof. Fabian I. Ezema is a professor at the University of Nigeria, Nsukka. He obtained his PhD in Physics and Astronomy from University of Nigeria, Nsukka. His research focuses on several areas of materials science with an emphasis on energy applications, specifically electrode materials for energy conversion and storage.

Metal Oxides as Electrocatalysts at Oxygen Electrodes in Electrochemical Systems

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Author : Shuai Zhao
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (119 download)

Book Synopsis Metal Oxides as Electrocatalysts at Oxygen Electrodes in Electrochemical Systems by : Shuai Zhao

Download or read book Metal Oxides as Electrocatalysts at Oxygen Electrodes in Electrochemical Systems written by Shuai Zhao and published by . This book was released on 2016 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Fuel cells, one of the most widely studied electrochemical energy conversion devices, together with electrolyzers, a promising energy storage system for natural renewable energy and source of purified hydrogen, have attracted significant research attention in recent years as the demand for energy continues to increase with no end to this energy expansion in sight. However, electrochemical reactions occurring at oxygen electrodes such as the oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) have very slow kinetics, which has limited the industrialization of both fuel cells and electrolyzers because slow kinetics leads directly high reaction overpotentials. Metal oxides have been widely adopted in terms of electrocatalysts for these oxygen reactions, either as as a support to enhance the stability or activity of platinum, or as the direct catalysts for ORR and OER in alkaline media. However, what is not known is how and why metal oxides as support materials can influence the performance of precious metals through their interactions, what the active sites are for different electrochemical reactions and how to control the desired phases by manipulating the synthesis conditions. This study will probe these very important questions. Chapter 1 of this work provides a background into the ORR/OER mechanism, active sites, and catalyst candidates in electrochemical devices. Chapter 2 presents experimental approaches including material synthesis, and both physical and electrochemical characterization. Chapters 3 and 4 of this study investigate doped metal carbides and metal oxides as support materials for platinum and iridium catalysts for the ORR and OER, respectively, in acidic electrolytes. The Chapter 3 is an investigation of tungsten carbide modified with titanium as a potential non-carbon support for platinum during the ORR in acid media. Chapter 4 discusses the relationship between the synthesis parameters of iridium/iridium oxide supported on titanium-doped tungsten oxide and its durability both ex-situ in a three-electrode cell on a rotating disk electrode (RDE) and in-situ in an operating electrolyzer. Chapter 5 discusses a new method to determine the electrochemically active area of iridium oxide, one of the most common anode catalysts in commercial PEM electrolyzers, in-situ through its electrochemical psuedocapacitance. Chapter 6 probes the performance and function of tin-doped indium oxides (ITO) as a support for platinum ORR catalyst in alkaline media. Metal-support interactions were studied mainly through X-ray photoelectron spectroscopy and electrochemical measurements. Chapter 7 focuses on the electrocatalysis of carbon nanotube (CNT)-supported cobalt oxide for both oxygen reduction and evolution reactions in alkaline media. An optimized procedure to produce a highly stable and active bifunctional ORR/OER hybrid catalyst was developed along with an understanding of the impact of metal oxide anchoring sites and synthesis parameters on catalyst durability. This part of the study provides novel perspectives for the design of carbon-based, hybrid materials and insight into the synthesis-property relationships for these and future electrocatalysts. In summary, this work has studied metal oxides as catalysts and support materials for precious metals during aqueous oxygen reactions. Wherever possible, the fundamental cause for their behavior, including enhanced electrocatalytic activity and durability, was probed thoroughly through physical and electrochemical characterization.

Encyclopedia of Interfacial Chemistry

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Author :
Publisher : Elsevier
ISBN 13 : 0128098945
Total Pages : 5276 pages
Book Rating : 4.1/5 (28 download)

Book Synopsis Encyclopedia of Interfacial Chemistry by :

Download or read book Encyclopedia of Interfacial Chemistry written by and published by Elsevier. This book was released on 2018-03-29 with total page 5276 pages. Available in PDF, EPUB and Kindle. Book excerpt: Encyclopedia of Interfacial Chemistry: Surface Science and Electrochemistry, Seven Volume Set summarizes current, fundamental knowledge of interfacial chemistry, bringing readers the latest developments in the field. As the chemical and physical properties and processes at solid and liquid interfaces are the scientific basis of so many technologies which enhance our lives and create new opportunities, its important to highlight how these technologies enable the design and optimization of functional materials for heterogeneous and electro-catalysts in food production, pollution control, energy conversion and storage, medical applications requiring biocompatibility, drug delivery, and more. This book provides an interdisciplinary view that lies at the intersection of these fields. Presents fundamental knowledge of interfacial chemistry, surface science and electrochemistry and provides cutting-edge research from academics and practitioners across various fields and global regions

Oxygen Evolution and Oxygen Reduction in Electrochemical Energy Conversion

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Author : Christian Urgeghe
Publisher :
ISBN 13 :
Total Pages : 378 pages
Book Rating : 4.:/5 (14 download)

Book Synopsis Oxygen Evolution and Oxygen Reduction in Electrochemical Energy Conversion by : Christian Urgeghe

Download or read book Oxygen Evolution and Oxygen Reduction in Electrochemical Energy Conversion written by Christian Urgeghe and published by . This book was released on 2005 with total page 378 pages. Available in PDF, EPUB and Kindle. Book excerpt: