Design of New Anion Exchange Membranes for Electrochemical Applications

Download Design of New Anion Exchange Membranes for Electrochemical Applications PDF Online Free

Author :
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (951 download)

DOWNLOAD NOW!


Book Synopsis Design of New Anion Exchange Membranes for Electrochemical Applications by : Liang Zhu

Download or read book Design of New Anion Exchange Membranes for Electrochemical Applications written by Liang Zhu and published by . This book was released on 2016 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Anion exchange membranes (AEMs) are polymer-based electrolyte solids that conduct anions (OH-, HCO3-, Cl-, et al.), with positively charged groups bound covalently to the polymer backbones. There has been a strong and growing worldwide interest in the use of anion exchange membranes for electrochemical energy conversion and storage systems. Anion exchange membrane fuel cells (AEMFCs) have been regarded as promising energy conversion devices for stationary and mobile applications due to their potential low cost. To realize high-performance AEMFCs, new polymeric membranes are needed that are highly conductive and chemically stable. Herein, cross-linked, multication side chain, and fluorene side chain AEMs based on poly(2,6-dimethyl-1,4-phenylene oxide)s (PPO) were synthesized. PPO was chosen as an AEM substrate because of its ease of functionalization at large scale and relatively good stability and membrane properties. To produce anion conductive and durable polymer electrolytes for alkaline fuel cell applications, a series of cross-linked quaternary ammonium functionalized poly(2,6-dimethyl-1,4-phenylene oxide)s with mass-based ion exchange capacities (IEC) ranging from 1.80 to 2.55 mmol/g were synthesized via thiol-ene click chemistry. From small angle X-ray scattering (SAXS), it was found that the cross-linked membranes developed micro-phase separation between the polar PPO backbone and the hydrophobic alkyl side chains. The ion conductivity, dimensional stability, and alkaline durability of the cross-linked membranes were evaluated. The hydroxide ion conductivity of the cross-linked samples reached 60 mS/cm in liquid water at room temperature. The chemical stabilities of the membranes were evaluated under severe, accelerated aging conditions and degradation was quantified by measuring ion conductivity changes during aging. The cross-linked membranes retained their relatively high ion conductivity and good mechanical properties both in 1 M and 4 M NaOH at 80 °C after 500 h. Attenuated total reflection (ATR) spectra were used to study the degradation pathways of the membranes, and it was discovered that [beta]-hydrogen (Hofmann) elimination was likely to be the major pathway for degradation in these membranes. Side-chain containing AEMs with one, two or three cations per side chain were designed and synthesized, enabling a study of how the degree of polymer backbone functionalization and arrangement of cations on the side chain impact AEM properties. A systematic study of anion exchange membranes (AEMs) with multiple cations per side chain site was conducted to demonstrate how this motif can boost both the conductivity and stability of poly(2,6-dimethyl-1,4-phenylene oxide)-based AEMs. The highest conductivity, up to 99 mS/cm at room temperature, was observed for a triple-cation side chain AEM with 5 or 6 methylene groups between cations. This conductivity was considerably higher than AEM samples based on benzyltrimethyl ammonium or benzyldimethylhexyl ammonium groups with only one cation per side chain site. In addition to high conductivity, the multication side chain AEMs showed good alkaline and dimensional stabilities. High retention of ion exchange capacity (IEC) (93% retention) and ionic conductivity (90% retention) were observed for the triple-cation side chain AEMs during degradation testing in 1 M NaOH at 80 °C for 500 h. Based on the high-performance triple-cation side chain AEM, a Pt-catalyzed fuel cell with a peak power density of 364 mW/cm2 was achieved at 60 °C under 100% related humidity. Anion-conductive copolymers, poly(2,6-dimethyl-1,4-phenylene oxide)s containing fluorene side chains with pendant alkyltrimethylammonium groups, were synthesized via Suzuki-Miyaura coupling of aryl bromides with fluorene-boronic acids. The quaternized copolymers produced ductile, transparent membranes which were soluble in dimethyl formamide, dimethyl sulfoxide and methanol at room temperature. The fluorene side chain-containing membranes showed considerably higher hydroxide ion conductivities, up to 176 mS/cm at 80 °C, compared to that of typical anion exchange membranes based on the benzyltrimethyl ammonium moiety. The results of titration and hydroxide ion conductivity measurements demonstrated excellent chemical stability of the fluorene side chain-containing anion exchange membranes (AEMs), even after 1000 h immersion in 1 M NaOH at 80 °C. The results of this study suggest a scalable route for the preparation of AEMs for practical alkaline fuel cell applications. A unique approach was employed to toughen AEMs by crosslinking the AEMs using commercial Jeffamine additives. Compared to the BTMA40 membrane, the 10% Jeffamine cross-linked membrane demonstrated significantly higher elongation at break. To be specific, the hydrated BTMA40 membrane showed a 51.7% elongation at break, while the 10% Jeffamine cross-linked membrane had a 166.8 % elongation at break. Clearly, the introducing of hydrophilic cross-linked network greatly enhanced the toughness of the AEMs. Overall, this thesis details a number of strategies for the large-scale production of PPO-based anion exchange membranes. These strategies will be useful in going forward in the design and deployment of hydroxide, bromide, bicarbonate, and chloride-conducting membranes for water purification and electrochemical technology.

Ion Exchange Membranes

Download Ion Exchange Membranes PDF Online Free

Author :
Publisher : Elsevier
ISBN 13 : 0444663215
Total Pages : 529 pages
Book Rating : 4.4/5 (446 download)

DOWNLOAD NOW!


Book Synopsis Ion Exchange Membranes by : Yoshinobu Tanaka

Download or read book Ion Exchange Membranes written by Yoshinobu Tanaka and published by Elsevier. This book was released on 2015-01-19 with total page 529 pages. Available in PDF, EPUB and Kindle. Book excerpt: Fundamental study and industrial application of ion exchange membranes started over half a century ago. Through ongoing research and development, ion exchange membrane technology is now applied to many fields and contributes to the improvement of our standard of living. Ion Exchange Membranes, 2nd edition states the ion exchange membrane technology from the standpoint of fundamentals and applications. It discusses not only various phenomena exhibited by membranes but also their applications in many fields with economical evaluations. This second edition is updated and revised, featuring ten expanded chapters. New to this edition is a computer simulation program of ion-exchange membrane electrodialysis for water desalination that provides a guideline for designing, manufacturing and operating a practical-scale electrodialyzer. Meant to replace experiments, this program will be an important asset to those with time and monetary budgets. New edition features ten revised and expanded chapters, providing the latest developments in ion exchange membrane technology Computer simulation program, accessible through a companion website, provides a guideline for designing, manufacturing and operating practical-scale electrodialyzers Attractive visual presentation, including many figures and diagrams

Ion Exchange Membranes

Download Ion Exchange Membranes PDF Online Free

Author :
Publisher : John Wiley & Sons
ISBN 13 : 3527841431
Total Pages : 437 pages
Book Rating : 4.5/5 (278 download)

DOWNLOAD NOW!


Book Synopsis Ion Exchange Membranes by : Tongwen Xu

Download or read book Ion Exchange Membranes written by Tongwen Xu and published by John Wiley & Sons. This book was released on 2024-03-11 with total page 437 pages. Available in PDF, EPUB and Kindle. Book excerpt: Ion Exchange Membranes A comprehensive introduction to the electro-membrane technologies of the future An ion exchange membrane is a polymer-based membrane which can be permeable by some ions in a solution while blocking others, making them ideal for processes such as water desalination, salt concentration control, clean production and—given their electrical conductivity—power generation and energy storage etc. Recent advances have given rise to new electro-membrane processes that promise drastically to expand the applications of this technology. Scientists in both research and industry will increasingly need to draw on these membranes in vital ways with strongly positive potential environmental impact. Ion Exchange Membranes summarizes recent research into these membranes and electro-membrane processes before moving to an overview of the historical background. It then attends in detail to cutting-edge fabrication technologies and the most recent areas of use. The result is a comprehensive introduction to the design, fabrication, and applications of these increasingly essential membranes. Ion Exchange Membranes readers will also find: In-depth treatment of industrial-scale applications Detailed discussion of topics including side-chain engineering, polyacylation, superacid-catalyst polymerization, and more Analysis of electro-membrane processes such as alkaline membrane water electrolysis, solar-driven water splitting, and many more Ion Exchange Membranes is ideal for membrane scientists, materials scientists, inorganic chemists, polymer chemists, and researchers and engineers in a variety of fields working with ion exchange membranes and electro-membrane processes.

Enhancements of the Synthesis and Fabrication of Anion Exchange Membranes

Download Enhancements of the Synthesis and Fabrication of Anion Exchange Membranes PDF Online Free

Author :
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (142 download)

DOWNLOAD NOW!


Book Synopsis Enhancements of the Synthesis and Fabrication of Anion Exchange Membranes by : Megan Matta

Download or read book Enhancements of the Synthesis and Fabrication of Anion Exchange Membranes written by Megan Matta and published by . This book was released on 2023 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Ion exchange membranes (IEMs) have emerged as important components in a wide variety of electrochemical processes and applications, playing a vital role in facilitating the selective transport of ions while preventing species crossover between the anolyte and catholyte. These versatile polymer or polymer composite membranes find uses in diverse fields such as energy conversion and storage, water treatment, chemical synthesis, and biotechnology. At the core of their functionality, ion exchange membranes exhibit a unique property known as "selective permeability." This property allows them to permit the controlled movement of specific ions across their structure based on differences in charge and size, while restricting the transport of other species. Diffusion of other molecules, such as water, can also be controlled simultaneously by optimizing the ion content, water uptake, and polymer structure of these materials. The design and synthesis of ion exchange membranes involve the incorporation of charged functional groups capable of exchanging ions with the surrounding solution. This functional group can be embedded in the backbone of the polymer, in an ionene-type structure, or attached to the backbone by tethered side chains. IEMs are broadly classified by the charge of the functional group into cation exchange membranes (CEMs) and anion exchange membranes (AEMs). CEMs have anionic functional groups and permit the transport of cations, whereas AEMs have cationic functional groups and permit the transport of anions. Bipolar membranes (BPM) are a type of composite IEM consisting of an AEM and CEM laminated together and an interesting topic of future research. Most AEMs produced today contain chemically unstable arylene ether backbones, have poor mechanical properties, and require toxic reagents for functionalization. This dissertation seeks to synthesize new anion exchange membranes that are stable in alkaline conditions while maintaining the high conductivities required for the operation of electrochemical devices. To develop a chemically stable aliphatic polyolefin AEM, a library of polymers synthesized via Ziegler-Natta polymerization was examined. This library consisted of quaternized poly(11-bromo-1-undecene-co-4-phenyl-2-butene) with degrees of functionalization of 20 mol% to 50 mol% -- and was made utilizing a different catalyst system than previously explored. A TiCl3ˑAA catalyst was reacted with triisobutylaluminum (TiBA) co-catalyst to synthesize a more robust catalyst complex than the traditional AlEt2Cl catalyst. It was found that this new system could incorporate a higher amount of halogenated monomer (up to 50 mol %) on a multi-gram scale (50 g) at high yield without poisoning and deactivating the catalyst. The monomer incorporation was equal to the monomer feed and allowed for the targeting of specific ion exchange capacities. A large-scale synthesis (100 g) was conducted to assess the feasibility of pilot scale experiments. The dissolved polymers were solvent cast onto an ePTFE support and heterogeneously quaternized by immersing the alkylbromide-functionalized membrane in trimethyl amine solution. This procedure resulted in uneven wrinkled membranes, and a new method of casting supported membranes was subsequently developed, as described below. The hydroxide conductivity of the membranes was measured at room temperature, with conductivities up to 32 mS/cm reported. Given the issues with deformities in the supported membranes, further work focused on developing more efficient and consistent methods of membrane fabrication. It is speculated from initial experiments that high molecular weight polymer was being filtered from the sample during solution processing -- decreasing the mechanical strength of cast membranes. The quaternary ammonium-functionalized polyolefins were cryomilled to retain high molecular weight polymer without aggregation. Casting membranes from the cryomilled powder increased the mechanical properties of the membrane such that the mechanical membrane support was no longer needed. Moreover, cryomilling facilitated bulk heterogenous quaternization of the polymer prior to membrane fabrication, reducing the amount of trimethylamine solution needed. Attenuated total reflection Fourier transform infrared spectroscopy (ATR-FTIR) measurements confirmed that the Menshutkin reaction went to completion and all bromine moieties were quaternized for all degrees of functionalization. The quaternized polymer resins were cryomilled to yield a free-flowing powder that could be used for AEM fabrication. The polymers were examined with thermogravimetric analysis, and the degradation temperature of the ammonium was found to be 215 °C in the chloride form. Suggesting that thermal processing, such as heat pressing, is a viable option for membrane fabrication. Environmentally benign ethanol as a solvent was utilized to disperse the powder and cast membranes unsupported. The resulting AEMs were smooth, with even appearance across the sample, and thin, with thicknesses ranging between 15 [mu]m and 20 [mu]m. Preliminary synthesis on a monomer for ring opening metathesis polymerization (ROMP) was attempted in an effort to examine the effects of well-defined backbone architecture on conductivity and chemical durability. The monomer, 3-(N,N'-dimethylpropyl-1-amine)-cyclooctene, was synthesized in high purity and characterized by proton NMR. Unfortunately attempts to polymerize the monomer via ROMP were unsuccessful as of the writing of this dissertation.

Anion Exchange and Bipolar Membranes for Electrochemical Energy Conversion and Storage

Download Anion Exchange and Bipolar Membranes for Electrochemical Energy Conversion and Storage PDF Online Free

Author :
Publisher :
ISBN 13 :
Total Pages : 218 pages
Book Rating : 4.:/5 (12 download)

DOWNLOAD NOW!


Book Synopsis Anion Exchange and Bipolar Membranes for Electrochemical Energy Conversion and Storage by : Zhongyang Wang (Chemical engineer)

Download or read book Anion Exchange and Bipolar Membranes for Electrochemical Energy Conversion and Storage written by Zhongyang Wang (Chemical engineer) and published by . This book was released on 2019 with total page 218 pages. Available in PDF, EPUB and Kindle. Book excerpt: Anion exchange and bipolar membrane fuel cells generate electrical energy directly from chemical fuels and have attracted considerable interests as alternate power sources for large market applications, such as transportation (hydrogen fuel cells) and unmanned vehicles (sodium borohydride fuel cells). Anion exchange membrane (AEM), generally composed of a polymer with covalently tethered ionic groups, is the central component of the fuel cell serving as the electrolyte, conducting hydroxide ions from cathode to anode, where fast ionic conduction is directly related to power output. However, AEMs currently used in fuel cells (H2 fuel cells and sodium borohydride fuel cells) exhibit ion poor transport properties at operation conditions of fuel cells, such as low hydroxide ion conductivities at 80 °C. Another concern with the use of AEMs in fuel cells is their stabilities in strong alkaline environment. AEMs suffer Hoffmann elimination, where the cation is cleaved and a direct nucleophilic (SN2) reaction where the cation is completely cleaved too.This dissertation targets on solving these two major obstacles for using AEMs as electrolytes in alkaline electrochemical energy storage and conversion. To solve the first problem, a triblock copolymer-based polymer (polystyrene-block-poly(ethylene-ran-butylene)-block-polystyrene, SEBS) has been developed to synthesize AEMs with high ion conductivities by engineering a phase-separated morphology. To address the second problem, novel cation groups such as imidazolium-based cation and phosphonium-based cation have been incorporated in AEMs. Also, by attaching a six-carbon alkyl spacer between polymer backbone and cation group, alkaline stability of such AEM has been investigated.Once the degradation mechanism of AEMs is well understood and AEMs with high ion conductivities have been developed, this dissertation focuses on developing such AEMs electrolyte for different electrochemical systems such as direct sodium borohydride fuel cells (DBFCs) and redox flow batteries (RFBs).Besides the concern of ionic conductivities and alkaline stabilities of AEMs in alkaline environment, another obstacle for the development of DBFC is the crossover of fuels and oxidants. We demonstrate a pH-gradient-enabled macroscale bipolar interface (PMBI) to effectively separate the anolyte and catholyte of the DBFC. The PMBI configuration enabled significantly enhanced performance in a DBFC as compared to either an all-anion-exchange or an all-cation-exchange configuration (330 mA/cm2 at 1.5 V and 630 mWpeak/cm2 at 1.0 V). The PMBI-type electrodes provide a new and fascinating design to engineer fuel-cell membrane electrode assemblies (MEAs). The bipolar-interface configuration also holds significant applicability in the field of water electrolysis, where the membrane could separate an acidic H2-evolution cathode (a very fast reaction) from an alkaline O2-evolution anode (possible on non-Pt-group metals) in a system wherein the benefits of the best electrodes of present acidic/alkaline water electrolyzers are combined.RFBs are promising candidates for large-scale energy storage systems, since the capacity, power and energy density parameters can be designed independently, which facilitates a convenient way of modification even after installation. AEMs play an important role as separators in some of RFBs where a degree of reactant isolation is required between the anolyte and catholyte compartments. A primary goal for membrane development in RFBs is to limit the diffusion of active species, while maintaining high oxidative stability in related species. A vanadium-cerium redox flow battery (V-Ce RFB) employing SEBS-based AEM as the separator yields an energy efficiency of 86% at a current density of 50 mA/cm2 with a 10% drop in capacity over 20 charge/discharge cycles. In contrast, a V-Ce RFB using Nafion®212 as the separator has an energy efficiency of 80% and a 40% drop in capacity over 20 charge/discharge cycles. The observed capacity fade is primarily due to cation intermixing between the anodic and cathodic compartments -- much better permselectivity has been obtained with the AEM separator. After 60 charge-discharge cycles (350 hours of operation), the ion exchange capacity and ionic conductivity of the AEM drops by about 20%. There has been no observed change in mechanical properties. The oxidative stability of the AEM has been evaluated ex situ by immersion in 1.5 M VO2+ + 3 M H2SO4 for 500 hours - the ionic conductivity remained constant over this timeframe.

Ion-Exchange Membrane Separation Processes

Download Ion-Exchange Membrane Separation Processes PDF Online Free

Author :
Publisher : Elsevier
ISBN 13 : 0080509401
Total Pages : 361 pages
Book Rating : 4.0/5 (85 download)

DOWNLOAD NOW!


Book Synopsis Ion-Exchange Membrane Separation Processes by : H Strathmann

Download or read book Ion-Exchange Membrane Separation Processes written by H Strathmann and published by Elsevier. This book was released on 2004-01-29 with total page 361 pages. Available in PDF, EPUB and Kindle. Book excerpt: Today, membranes and membrane processes are used as efficient tools for the separation of liquid mixtures or gases in the chemical and biomedical industry, in water desalination and wastewater purification. Despite the fact that various membrane processes, like reverse osmosis, are described in great detail in a number of books, processes involving ion-exchange membranes are only described in a fragmented way in scientific journals and patents; even though large industrial applications, like electrodialysis, have been around for over half a century. Therefore, this book is emphasizing on the most relevant aspects of ion-exchange membranes. This book provides a comprehensive overview of ion-exchange membrane separation processes covering the fundamentals as well as recent developments of the different products and processes and their applications. The audience for this book is heterogeneous, as it includes plant managers and process engineers as well as research scientists and graduate students. The separate chapters are based on different topics. The first chapter describes the relevant Electromembrane processes in a general overview. The second chapter explains thermodynamic and physicochemical fundamentals. The third chapter gives information about ion-exchange membrane preparation techniques, while the fourth and fifth chapter discusses the processes as unit operations giving examples for the design of specific plants. First work on the principles and applications of electrodialysis and related separation processes Presently no other comprehensive work that can serve as both reference work and text book is available Book is suited for teaching students and as source for detailed information

Systematic Design of Chemically Stable, High-performance Anion Exchange Membranes for Fuel Cell Applications

Download Systematic Design of Chemically Stable, High-performance Anion Exchange Membranes for Fuel Cell Applications PDF Online Free

Author :
Publisher :
ISBN 13 :
Total Pages : 528 pages
Book Rating : 4.:/5 (115 download)

DOWNLOAD NOW!


Book Synopsis Systematic Design of Chemically Stable, High-performance Anion Exchange Membranes for Fuel Cell Applications by : Angela Dee Mohanty

Download or read book Systematic Design of Chemically Stable, High-performance Anion Exchange Membranes for Fuel Cell Applications written by Angela Dee Mohanty and published by . This book was released on 2015 with total page 528 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Ion Exchange Membranes

Download Ion Exchange Membranes PDF Online Free

Author :
Publisher : Royal Society of Chemistry
ISBN 13 : 1847551173
Total Pages : 325 pages
Book Rating : 4.8/5 (475 download)

DOWNLOAD NOW!


Book Synopsis Ion Exchange Membranes by : Toshikatsu Sata

Download or read book Ion Exchange Membranes written by Toshikatsu Sata and published by Royal Society of Chemistry. This book was released on 2007-10-31 with total page 325 pages. Available in PDF, EPUB and Kindle. Book excerpt: Various separation membranes have been developed since their discovery over half a century ago, providing numerous benefits and fulfilling many applications in our everyday lives. They lend themselves to techniques ranging from microfiltration and gas separation, to what can be considered as the most advanced technique - ion exchange. This book, aimed at academic researchers, engineers and industrialists, contains a brief history of ion exchange and goes on to explain the preparation, characterization, modification and applications of these important membranes. Discussions include the use of ion exchange in analytical and medical techniques, as well as the development of future applications.

Current Trends and Future Developments on (Bio-) Membranes

Download Current Trends and Future Developments on (Bio-) Membranes PDF Online Free

Author :
Publisher : Elsevier
ISBN 13 : 0323906737
Total Pages : 376 pages
Book Rating : 4.3/5 (239 download)

DOWNLOAD NOW!


Book Synopsis Current Trends and Future Developments on (Bio-) Membranes by : Angelo Basile

Download or read book Current Trends and Future Developments on (Bio-) Membranes written by Angelo Basile and published by Elsevier. This book was released on 2023-09-25 with total page 376 pages. Available in PDF, EPUB and Kindle. Book excerpt: Current Trends and Future Developments on (Bio-) Membranes: Recent Achievements for Ion-Exchange Membranes focuses on introducing and analyzing ion-exchange membranes performance and overviewing recent achievements in the structural development of ion-exchange membranes in various applications. Hence, this book is a key reference text for R&D managers in who are interested in the development of ion-exchange membrane technologies as well as academic researchers and postgraduate students working in the wider area of strategic treatments, separation and purification processes. Reviews the ion exchange membranes, including fundamentals and processes Provides thorough coverage of transport aspects and fundamentals of various ion-exchange membranes systems, such as fuel cells, electrodialysis, and more Describes the two main categories of ion exchange membranes, inorganic and organic Covers numerous new applications of ion exchange membranes

Developing Novel Ion Exchange Membranes for Renewable Energy Devices

Download Developing Novel Ion Exchange Membranes for Renewable Energy Devices PDF Online Free

Author :
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (135 download)

DOWNLOAD NOW!


Book Synopsis Developing Novel Ion Exchange Membranes for Renewable Energy Devices by : Matthew Thompson

Download or read book Developing Novel Ion Exchange Membranes for Renewable Energy Devices written by Matthew Thompson and published by . This book was released on 2022 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Renewable energy applications (i.e. fuel cells, flow batteries, electrolyzers) have been at the forefront of green energy and environmental research over the past couple of decades and the research associated with them has skyrocketed due to changes in funding and incentives. The extensive research over the years have resulted in higher efficiency and longer lasting devices for renewable energy applications, but there is still a major bottleneck that all these devices share; the ion-exchange membrane (IEM). The development of polymer ion-exchange membranes has been very beneficial for these devices as they allow for higher working temperatures and increase the longevity and efficiency of said devices. IEM research can be summed up into two major types of membranes; proton- and anion-exchanging. Of these materials, proton-exchanging membrane (PEM) are well established and studied due to how long they have been manufactured and the ease of manufacturing. There has been a variety of different PEMs developed and tested, but none have been commercialized as heavily or used as universally as Nafion® (developed by DuPont in the 1960s) although it still suffers from setbacks like its high cost, low working temperatures and its low tolerance for fuel impurities. On the other hand, anion-exchange membranes (AEM) have become popular in this field of study as they boast a non-acidic substitute as well as more efficient oxygen reduction reactions allowing for operation without the use of expensive catalysts. AEMs are first in line to replace commercial PEMs like Nafion®, the major bottleneck being their ionic conductivities. Pairing the structural characteristics of PEMs with the efficient and more cost effective AEMs we sought out to design and synthesize new IEMs to compete with current commercial membranes. By using ring opening metatheses polymerization (ROMP) we have designed and developed numerous hydrocarbon polynorbornene derivative membranes with the intention of incorporating amino-phosphine ion exchange groups (IEG) to compete with current IEMs in both efficiency and cost with the major application of fuel cells and flow batteries in mind. We also performed different modifications to the initial membranes such as crosslinking and alkyl chain addition to increase the mechanical strength and mitigate the degradation of the membranes. Using results gathered from developing polynorbornene IEMs, we pivoted to another multitude of membranes, this time focusing on the PEM capabilities of fluorinated polymers instead of their hydrocarbon alternatives for use in redox flow batteries with the main goal of decreasing electrolyte crossover, therefore increasing the longevity of the devices. Several new IEMs were designed as composite membranes of Nafion® and aromatic organic IEGs and synthesized to compete with the current commercial IEMs while testing the effect of different aromatic IEGs on the salt permeability and mechanical strength of the membrane. Synthesis of a stable IEM with good electrolyte crossover and conductivity properties was achieved by combining a grafted Nafion® backbone with 2-phenylbenzimidazole side chains containing a long hydrocarbon chain to facilitate hydrophobicity and increase mechanical strength. These composite membranes take advantage of the imidazole's highly stable chemical backbone and proton exchanging properties allowing it to withstand highly acidic and oxidative environments as well as relying on benzimidazoles tight packing to reduce electrolyte permeability throughout the membrane.

SYNTHESIS DESIGN OF POLYSTYRENE BASED ANION EXCHANGE MEMBRANES: STUDY ON RELATIONSHIP BETWEEN CHEMICAL AND MORPHOLOGICAL STRUCTURES AND PROPERTIES IN ALKALINE FUEL CELL CONDITIONS

Download SYNTHESIS DESIGN OF POLYSTYRENE BASED ANION EXCHANGE MEMBRANES: STUDY ON RELATIONSHIP BETWEEN CHEMICAL AND MORPHOLOGICAL STRUCTURES AND PROPERTIES IN ALKALINE FUEL CELL CONDITIONS PDF Online Free

Author :
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (111 download)

DOWNLOAD NOW!


Book Synopsis SYNTHESIS DESIGN OF POLYSTYRENE BASED ANION EXCHANGE MEMBRANES: STUDY ON RELATIONSHIP BETWEEN CHEMICAL AND MORPHOLOGICAL STRUCTURES AND PROPERTIES IN ALKALINE FUEL CELL CONDITIONS by : Sayema Khan Tuli

Download or read book SYNTHESIS DESIGN OF POLYSTYRENE BASED ANION EXCHANGE MEMBRANES: STUDY ON RELATIONSHIP BETWEEN CHEMICAL AND MORPHOLOGICAL STRUCTURES AND PROPERTIES IN ALKALINE FUEL CELL CONDITIONS written by Sayema Khan Tuli and published by . This book was released on 2017 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Anion exchange membrane fuel cells (AEMFCs) are an alternative renewable energy source with potential benefits including use of non-precious metal catalysts, facile electro-kinetics, and high power density. Despite these advantages, development of chemically robust and highly conductive anion exchange membranes (AEMs) is the great challenge. The properties of polymeric AEMs depend on many parameters, for example, backbone structures, morphology of membranes, and chemical stability of the ion transporting group. Therefore, all of these interconnected parameters have to be addressed and studied for AEM development. The objectives of this dissertation are 1) to develop durable membranes with high anion conductivity by cost effective materials and methods, and 2) to understand the structure-property relationship by designing polymer structures and membrane morphology. To achieve these goals, the presented research focuses on development of polystyrene (PS) based AEMs by the post-crosslinking method using the click reaction. The first work of this dissertation (chapter 2) was to establish a facile and effective AEM fabrication method. AEMs with optimized ion exchange capacity (IEC) and degree of crosslinking showed the improvement of electrochemical properties and fuel cell performance. Different PS architectures including block and random copolymers with the benchmark cation for AEM, benzyltrimethylammonium (BTMA), were designed and synthesized in our next step (chapter 3). The focus in this particular series was to study the effect of membrane morphology on ion conductive properties. Significant differences were observed between random and block copolymer based AEMs. The nano-scale ordered morphology of the block membranes led to satisfactory ion transport properties as well as improved durability of the membranes. Furthermore, the fuel cell test revealed that the block membranes maintained superior performance after multiple polarization curves in comparison with one of the best commercial AEMs (A201). The stability of cations is another crucial subject for AEM progress. Therefore, a novel AEM with phenyltrimethylammonium (PTMA) was fabricated from the PS based block copolymer, which was designed to avoid cation degradation through the elimination and nucleophilic substitution reactions (chapter 4). The preliminary data indicated that this novel AEM had higher thermal and chemical stability than the BTMA based AEM with similar structure.

Microbial Electrochemical Technologies

Download Microbial Electrochemical Technologies PDF Online Free

Author :
Publisher : CRC Press
ISBN 13 : 0429944993
Total Pages : 497 pages
Book Rating : 4.4/5 (299 download)

DOWNLOAD NOW!


Book Synopsis Microbial Electrochemical Technologies by : Sonia M. Tiquia-Arashiro

Download or read book Microbial Electrochemical Technologies written by Sonia M. Tiquia-Arashiro and published by CRC Press. This book was released on 2020-01-06 with total page 497 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book encompasses the most updated and recent account of research and implementation of Microbial Electrochemical Technologies (METs) from pioneers and experienced researchers in the field who have been working on the interface between electrochemistry and microbiology/biotechnology for many years. It provides a holistic view of the METs, detailing the functional mechanisms, operational configurations, influencing factors governing the reaction process and integration strategies. The book not only provides historical perspectives of the technology and its evolution over the years but also the most recent examples of up-scaling and near future commercialization, making it a must-read for researchers, students, industry practitioners and science enthusiasts. Key Features: Introduces novel technologies that can impact the future infrastructure at the water-energy nexus. Outlines methodologies development and application of microbial electrochemical technologies and details out the illustrations of microbial and electrochemical concepts. Reviews applications across a wide variety of scales, from power generation in the laboratory to approaches. Discusses techniques such as molecular biology and mathematical modeling; the future development of this promising technology; and the role of the system components for the implementation of bioelectrochemical technologies for practical utility. Explores key challenges for implementing these systems and compares them to similar renewable energy technologies, including their efficiency, scalability, system lifetimes, and reliability.

Anion Exchange Membranes in Electrochemical Energy Systems

Download Anion Exchange Membranes in Electrochemical Energy Systems PDF Online Free

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

DOWNLOAD NOW!


Book Synopsis Anion Exchange Membranes in Electrochemical Energy Systems by : Yunzhu Zhang

Download or read book Anion Exchange Membranes in Electrochemical Energy Systems written by Yunzhu Zhang and published by . This book was released on 2021 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Non-CO2-emitting sources of renewable energy, such as solar and wind, have become quite popular in recent years, and their electricity generation cost at scale has become comparable with that of gas- and coal-fired power plants. However, their intermittent output makes the resultant electricity hard to dispatch in a reliable manner in the absence of grid-scale electrical energy storage (EES) technologies. Redox-flow batteries (RFBs) are promising devices for medium- to large-scale electric energy storage. They are safe, reliable, and portable, and are designed with decoupled power and energy modules, which makes it easy and cost-effective to scale their output to meet user demands. However, a significant challenge in RFBs is low RFB efficiency, one key reason for which is short-circuiting due to active ion species crossover through the membrane between the electrolyte solutions.This dissertation focuses on resolving this obstacle and addresses the aforementioned issues in two parts. The first part focuses on the use of the boundary element method to model ion transfer and Donnan exclusion phenomena in both anion and cation exchange membranes. The results guided the membrane fabrication for homogeneous, heterogeneous, and asymmetric membranes. The second part of the dissertation focuses on studying the mechanism of ion selectivity in AEMs, especially the Donnan exclusion effect. Once the mechanism of the ion selectivity of membranes was well understood, modified AEMs with high ion selectivity were developed and applied in the V-Ce ED-RFB and Ti-Ce ED-RFB. 79% energy efficiency (EE) was obtained after 100 charge/discharge cycles at 50 mA/cm2 in V-Ce ED-RFB. The highly selective AEMs mentioned above exhibited 0.4 % cation crossover over 1000 hours of operation. The ED-RFB showed 100% capacity retention over 1300 hours of charge/discharge cycles with 70% energy efficiency.

Anion Exchange Membranes for Electrochemical Oxidation-reduction Energy Storage System

Download Anion Exchange Membranes for Electrochemical Oxidation-reduction Energy Storage System PDF Online Free

Author :
Publisher :
ISBN 13 :
Total Pages : 28 pages
Book Rating : 4.:/5 (317 download)

DOWNLOAD NOW!


Book Synopsis Anion Exchange Membranes for Electrochemical Oxidation-reduction Energy Storage System by :

Download or read book Anion Exchange Membranes for Electrochemical Oxidation-reduction Energy Storage System written by and published by . This book was released on 1977 with total page 28 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Fuel Cells

Download Fuel Cells PDF Online Free

Author :
Publisher : Springer Science & Business Media
ISBN 13 : 1461457858
Total Pages : 795 pages
Book Rating : 4.4/5 (614 download)

DOWNLOAD NOW!


Book Synopsis Fuel Cells by : Klaus-Dieter Kreuer

Download or read book Fuel Cells written by Klaus-Dieter Kreuer and published by Springer Science & Business Media. This book was released on 2012-12-14 with total page 795 pages. Available in PDF, EPUB and Kindle. Book excerpt: The expected end of the “oil age” will lead to increasing focus and reliance on alternative energy conversion devices, among which fuel cells have the potential to play an important role. Not only can phosphoric acid and solid oxide fuel cells already efficiently convert today’s fossil fuels, including methane, into electricity, but other types of fuel cells, such as polymer electrolyte membrane fuel cells, have the potential to become the cornerstones of a possible future hydrogen economy. Featuring 21 peer-reviewed entries from the Encyclopedia of Sustainability Science and Technology, Fuel Cells offers concise yet comprehensive coverage of the current state of research and identifies key areas for future investigation. Internationally renowned specialists provide authoritative introductions to a wide variety of fuel cell types, and discuss materials, components, and systems for these technologies. The entries also cover sustainability and marketing considerations, including comparisons of fuel cells with alternative technologies.

Proceedings of the Symposia on Fundamentals of Electrochemical Process Design

Download Proceedings of the Symposia on Fundamentals of Electrochemical Process Design PDF Online Free

Author :
Publisher :
ISBN 13 :
Total Pages : 440 pages
Book Rating : 4.F/5 ( download)

DOWNLOAD NOW!


Book Synopsis Proceedings of the Symposia on Fundamentals of Electrochemical Process Design by :

Download or read book Proceedings of the Symposia on Fundamentals of Electrochemical Process Design written by and published by . This book was released on 1995 with total page 440 pages. Available in PDF, EPUB and Kindle. Book excerpt:

THE STUDY OF CHEMICAL INDUCED POLYOLEFIN-BASED ION EXCHANGE MEMBRANE FOR ELECTRODIALYSIS APPLICATION

Download THE STUDY OF CHEMICAL INDUCED POLYOLEFIN-BASED ION EXCHANGE MEMBRANE FOR ELECTRODIALYSIS APPLICATION PDF Online Free

Author :
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (124 download)

DOWNLOAD NOW!


Book Synopsis THE STUDY OF CHEMICAL INDUCED POLYOLEFIN-BASED ION EXCHANGE MEMBRANE FOR ELECTRODIALYSIS APPLICATION by :

Download or read book THE STUDY OF CHEMICAL INDUCED POLYOLEFIN-BASED ION EXCHANGE MEMBRANE FOR ELECTRODIALYSIS APPLICATION written by and published by . This book was released on 2020 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Abstract : High-performance ion exchange membranes with high ion exchange capacity (IEC), excellent mechanical properties, lower membrane resistance and superior ions conductivity were developed with chemical-induced polymerization in this work. Through a series of synthesizing experiments, structure characterization and properties testing for polyolefin-based cation exchange membrane (CEM) and anion exchange membrane (AEM), LDPE proved to be an optimized backbone material. The CEM with 57.5% styrene, 38.4% LDPE, 3% crosslinking degree and 1% initiator addition yield the highest IEC value (1.72 mol/g) and moderate burst strength. The 10% addition of styrene was found to enhance IEC of 57% to AEM. However, continually increase styrene leaded lower IEC due to the decreasing grafting degree of vinyl benzene chloride (VBC) on polyethylene. The influence of fillers, such as surface-modified glass fiber (GF) and functionalized graphene oxides (GO), on thermal, mechanical and electrochemical properties of ion exchange membrane were investigated in this work by dynamic mechanical analysis, IEC and field emission scanning electron microscopes (FE-SEM), fourier-transform infrared spectroscopy (FT-IR) and electrochemical impedance spectroscopy. The addition of modified GF increases tensile strength, tensile modulus, storage modulus and interfacial adhesion of GF/CEM composite but degraded the strains. The composite with [3-(Methacryloxy) propyl] trimethoxy silane (3-MPS) modified GF obtained superior mechanical properties and interfacial adhesion, whereas the modified effect of triethoxyvinylsilane (TES) was inconspicuous. The addition of unmodified GF even had negative effects on GF/CEM mechanical properties. The FE-SEM showed that the GF treated by 3-MPS and poly(propylene-graft-maleic anhydride) (PP-g-MA) have better compatibility with the CEM matrix than 1,6 bis and TES treated GF. The FT-IR verified the strengthening effects from modified GF were attributed to the formation of Si-O-Si and Si-O-C bonds. The additions of modified GF in CEM positively influence water uptake ability but negatively on IEC. This section provided a way of strengthening GF/CEM composite. The CEM doped with functionalized graphene oxides was verified to be significantly improved in IEC (21% higher) and membrane conductivity (326.7% higher) compare to the pristine CEM. The results also suggested that the improved effects of dual-functionalized GO on CEM properties are superior to the single functionalized GO. The coexistence of -PO3H, -SO3H in GO resulted in CEM possessed 7.8% higher IEC, 77.29% higher membrane conductivity and 43.56% lower activation energy than that with single functionalized GO. This work provides a new strategy for the design of high-performance IEM with excellent mechanical property, high IEC, high conductivity and low membrane resistance for application.