[PDF] Material Design And Engineering For Polymer Electrolyte Membrane Zinc Air Batteries eBook

Author : Jing Fu
Publisher :
Page : 147 pages
File Size : 10,80 MB
Release : 2018
Category : Electric batteries
ISBN :

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Zinc-air batteries, whose advantages include relatively high energy density (1218 Wh kg-1), abundance of zinc in earth's crust, and very safe operational characteristics, are promising for applications in consumer electronics, electrified transportation, grid storage, and other fields. At the moment, primary zinc-air batteries are produced for low-drain electronic gadgets such as hearing aids. However, secondary (i.e., electrically rechargeable) zinc-air batteries have eluded widespread adoption due mainly to the slow reaction kinetics of oxygen evolution at the air electrode during recharge. A bifunctional oxygen electrocatalyst that can recharge the batteries more efficiently is required. Moreover, in the presence of aqueous alkaline electrolytes, zinc-air batteries suffer from low durability and performance loss due mainly to the formation of zinc dendrites during charging, the loss of aqueous electrolytes, the detachment of the catalyst layer and the precipitation of carbonates at the air electrode. These persistent issues have motivated a shift in electrolyte design towards efficient hydroxide ion-conductive polymeric electrolytes. A combination of efficient bifunctional oxygen electrocatalysts and polymeric electrolyte improvements may enable zinc-air batteries to be implemented in widespread applications in flexible/lightweight electronic devices and electric vehicles. In this work, I present a feasible strategy combining material innovations with engineering methods to develop a new type of zinc-air battery, i.e., a flexible, rechargeable polymer electrolyte membrane zinc-air battery (PEMZAB). In the first study, a proof of concept of a film-shaped, rechargeable PEMZAB was conducted by using a KOH-doped poly(vinyl alcohol) (PVA) gel electrolyte, porous zinc electrode and bifunctional air electrode comprising a commercial Co3O4 nanoparticles-loaded carbon cloth. Then, a novel hydroxide ion-conductive polymeric electrolyte membrane and an efficient bifunctional oxygen zinc-air battery performance. Specifically, highly quaternaized cellulose nanofibers were synthesized to produce a hydroxide ion-conductive electrolyte membrane (referred to as QAFC). The QAFC membrane shows advantages of a high ionic conductivity of 21.2 mS cm-1, good chemical stability, mechanical robustness and flexibility, and inhibition of zinc dendrites and carbonations. In addition to the QAFC electrolyte membrane development, a hybrid bifunctional oxygen electrocatalyst, consisting of cobalt oxysulfide nanoparticles and nitrogen-doped graphene nanomeshes (CoO0.87S0.13/GN), was prepared. The defect chemistries of both oxygen-vacancy-rich cobalt oxysulfides and edge-nitrogen-rich graphene nanomeshes lead to a remarkable improvement in electrocatalytic performance, where CoO0.87S0.13/GN exhibits strongly comparable catalytic activity and much better stability than the best-known benchmark noble metal catalysts. A simple, water-based filtration method for a direct assembly of the QAFC membrane and the CoO0.87S0.13/GN catalyst film was demonstrated with the PEMZAB. Such a fabrication approach enables intimate contact between the solid-solid catalyst-electrolyte interfaces for facile charge transfer. Moreover, benefiting from the performance improvement of the QAFC electrolyte membrane and the CoO0.87S0.13/GN bifunctional catalyst, the resulting battery possesses a higher energy density of 857.9 Wh kg-1 and a more stable cycling performance, over 300 hours of operation at 20 mA cm-2 under ambient conditions, than those of a battery using PVA-KOH gel electrolyte and commercial Co3O4 bifunctional catalysts. In the last study, the knowledge gained from the hybrid CoO0.87S0.13/GN bifunctional catalyst is transferred to the fabrication of a hybrid catalyst/current collector assembly for the bifunctional air electrode. In this assembly, a hair-like array of mesoporous cobalt oxide nanopetals in nitrogen-doped carbon nanotubes is grown directly on a stainless-steel mesh through chemical vapor deposition and electrodeposition methods. Such integrative design not only ensures a large number of catalytically active sites in a given electrode surface, but also increases the electron transfer between each individual catalyst and the conductive substrate. This advanced air electrode assembly further boosts the PEMZAB performance, with a high peak power density of 160.7 mW cm-2 at 250 mA cm-2 and a remarkable cycling durability: lasting over 600 hours of operation at 25 mA cm-2 under ambient conditions.

Author : Zongping Shao
Publisher : John Wiley & Sons
Page : 309 pages
File Size : 12,16 MB
Release : 2023-01-04
Category : Technology & Engineering
ISBN : 3527350462

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Zinc–Air Batteries Authoritative and comprehensive resource covering foundational knowledge of zinc–air batteries as well as their practical applications Zinc–Air Batteries provides a comprehensive understanding of the history and development of Zn–air batteries, with a systematic overview of components, design, and device innovation, along with recent advances in the field, especially with regards to the cathode catalyst design made by cutting-edge materials, engineering processes, and technologies. In particular, design principles regarding the key components of Zn–air batteries, ranging from air cathode, to zinc anode, and to electrolyte, are emphasized. Furthermore, industrial developments of Zn–air batteries are discussed and emerging new designs of Zn–air batteries are also introduced. The authors argue that designing advanced Zn–air battery technologies is important to the realization of efficient energy storage and conversion—and, going further, eventually holds the key to a sustainable energy future and a carbon-neutral goal. Edited and contributed to by leading professionals and researchers in the field, Zinc–Air Batteries also contains information regarding: Design of oxygen reduction catalysts in primary zinc–air batteries, including precious metals, single-atoms, carbons, and transition metal oxides Design of bifunctional oxygen catalysts in rechargeable zinc–air batteries, covering specific oxygen redox reactions and catalyst candidates Design of three-dimensional air cathode in zinc–air batteries, covering loading of carbon-based and transition metal catalysts, plus design of the three-phase interface Design of electrolyte for zinc–air batteries, including liquid electrolytes (e.g., alkaline) and gel polymer electrolytes (e.g., PVA hydrogel) For students, researchers, and instructors working in battery technologies, materials science, and electrochemistry, and for industry and government representatives for decision making associated with energy and transportation, Zinc–Air Batteries summarizes the research results on Zn–air batteries and thereby helps researchers and developers to implement the technology in practice.

Author : Sabu Thomas
Publisher : Elsevier
Page : 444 pages
File Size : 26,99 MB
Release : 2024-07-01
Category : Technology & Engineering
ISBN : 0128175087

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Advanced Materials for Battery Separators focuses solely on battery separators and their significance, providing the reader with a detailed description of their use in both aqueous and non-aqueous batteries. Topics include separator requirements and classifications, as well as discussions of the different methods for the fabrication of separators, experimental techniques used for the characterization of separators, and their physical and chemical properties. It concludes with a look at the challenges and new technologies developed to improve the performance of separators. This book is a valuable reference for engineers, research scholars, and for graduates and post graduates primarily in the field of material science, electrochemistry, and polymer chemistry. It can also be useful for engineers and technologists working in both industry and the energy field. Provides a detailed discussion of separators used in battery applications Discusses the influence of nanofillers on separator performance and the analytical techniques used for the characterization of separators Explores the challenges and new technologies to improve the performance of separators

Author : Hua Zhang
Publisher :
Page : pages
File Size : 30,96 MB
Release : 2022
Category :
ISBN :

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The growing demands for energy and the associated environmental pollution have sparked a great deal of interest in the development of clean energy technologies including fuel cells, metal-air batteries, supercapacitors, and hydrogen production. Among them, Zinc-air batteries (ZABs) are potential possibilities because of their low cost, high theoretical energy density, high-level safety, and environmental friendliness. In addition, zinc (Zn) is abundant in the environment and far less expensive than lithium metals. Thus, ZABs have been proposed as promising energy sources for grid-scale ener...

Author : Władysław Wieczorek
Publisher : CRC Press
Page : 345 pages
File Size : 28,57 MB
Release : 2021-06-23
Category : Technology & Engineering
ISBN : 1000076806

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Every electrochemical source of electric current is composed of two electrodes with an electrolyte in between. Since storage capacity depends predominantly on the composition and design of the electrodes, most research and development efforts have been focused on them. Considerably less attention has been paid to the electrolyte, a battery’s basic component. This book fills this gap and shines more light on the role of electrolytes in modern batteries. Today, limitations in lithium-ion batteries result from non-optimal properties of commercial electrolytes as well as scientific and engineering challenges related to novel electrolytes for improved lithium-ion as well as future post-lithium batteries.

Author : Victor Nikonenko
Publisher : MDPI
Page : 368 pages
File Size : 36,66 MB
Release : 2021-08-10
Category : Science
ISBN : 3036513590

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Membranes play an enormous role in our life. Biological cell membranes control the fluxes of substances in and out of cells. Artificial membranes are widely used in numerous applications including “green” separation processes in chemistry, agroindustry, biology, medicine; they are used as well in energy generation from renewable sources. They largely mimic the structure and functions of biological membranes. The similarity in the structure leads to the similarity in the properties and the approaches to study the laws governing the behavior of both biological and artificial membranes. In this book, some physico-chemical and chemico-physical aspects of the structure and behavior of biological and artificial membranes are investigated.

Author : Shengjie Peng
Publisher : Springer Nature
Page : 220 pages
File Size : 39,61 MB
Release : 2023-01-01
Category : Science
ISBN : 9811982147

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This book aims to discuss the cutting-edge materials and technologies for zinc-air batteries. From the perspective of basic research and engineering application, the principle innovation, research progress, and technical breakthrough of key materials such as positive and negative electrodes, electrolytes, and separators of zinc-air batteries are discussed systematically, which can be used to guide and promote the development of zinc-air battery technology. We do believe that our experiences and in-depth discussions would make this book useful for researchers at all levels in the energy area and provide them with a quick way of understanding the development of zinc-air batteries.

Author : Amadou Belal Gueye
Publisher : Elsevier
Page : 715 pages
File Size : 49,66 MB
Release : 2024-06-28
Category : Technology & Engineering
ISBN : 0323914217

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Nanostructured Materials Engineering and Characterization for Battery Applications is designed to help solve fundamental and applied problems in the field of energy storage. Broken up into four separate sections, the book begins with a discussion of the fundamental electrochemical concepts in the field of energy storage. Other sections look at battery materials engineering such as cathodes, electrolytes, separators and anodes and review various battery characterization methods and their applications. The book concludes with a review of the practical considerations and applications of batteries.This will be a valuable reference source for university professors, researchers, undergraduate and postgraduate students, as well as scientists working primarily in the field of materials science, applied chemistry, applied physics and nanotechnology. Presents practical consideration for battery usage such as LCA, recycling and green batteries Covers battery characterization techniques including electrochemical methods, microscopy, spectroscopy and X-ray methods Explores battery models and computational materials design theories

Author : Haiyan Wang
Publisher : John Wiley & Sons
Page : 341 pages
File Size : 49,21 MB
Release : 2024-07-29
Category : Technology & Engineering
ISBN : 352734974X

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Aqueous Zinc Ion Batteries Pioneering reference book providing the latest developments and experimental results of aqueous zinc ion batteries Aqueous Zinc Ion Batteries comprehensively reviews latest advances in aqueous zinc ion batteries and clarifies the relationships between issues and solutions for the emerging battery technology. Starting with the history, the text covers essentials of each component of aqueous zinc ion batteries, including cathodes, anodes, and electrolytes, helping readers quickly attain a foundational understanding of the subject. Written by three highly qualified authors with significant experience in the field, Aqueous Zinc Ion Batteries provides in-depth coverage of sample topics such as: History, main challenges, and zinc metal anodes for aqueous zinc ion batteries Electrochemical reaction mechanism of aqueous zinc ion batteries and interfacial plating and stripping on zinc anodes Cathode materials for aqueous zinc ion batteries, covering manganese-based materials, vanadium-based materials, Prussian blue analogs, and other cathode materials Development of electrolytes, issues, and corresponding solutions for aqueous zinc ion batteries Separators for aqueous zinc ion batteries, development of full zinc ion batteries, and future perspectives on the technology A detailed resource on a promising alternative to current lithium-ion battery systems, Aqueous Zinc Ion Batteries is an essential read for materials scientists, electrochemists, inorganic chemists, surface chemists, catalytic chemists, and surface physicists who want to be on the cutting edge of a promising new type of battery technology.

Author : Shanqing Zhang
Publisher : John Wiley & Sons
Page : 229 pages
File Size : 42,11 MB
Release : 2023-05-22
Category : Technology & Engineering
ISBN : 3527350683

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Functional Polymers for Metal-Ion Batteries Unique and useful book covering fundamental knowledge and practical applications of polymer materials in energy storage systems In Functional Polymers for Metal-Ion Batteries, the recent development and achievements of polymer-based materials are comprehensively analyzed in four directions, including electrode materials, binders, separators, and solid electrolytes, highlighting the working mechanisms, classification, design strategies, and practical applications of these polymer materials in mental-ion batteries. Specific sample topics covered in Functional Polymers for Metal-Ion Batteries include: Prominent advantages of various solid-state electrolytes, such as low flammability, easy processability, more tolerance to vibration, shock, and mechanical deformation Why and how functional polymers present opportunities to maximize energy density and pursue the sustainability of the battery industry How the application of functional polymers in metal-ion batteries helps enhance the high energy density of energy storage devices and reduce carbon footprint during production How development of functional separators could significantly lower the cost of battery manufacturing Providing a comprehensive understanding of the role of polymers in the whole configuration of metal-ion batteries from electrodes to electrolytes, Functional Polymers for Metal-Ion Batteries is an ideal resource for materials scientists, electrochemists, and polymer, solid state, and physical chemists who wish to understand the latest developments of this technology.