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Functional Polymers for Metal-ion Batteries

Functional Polymers for Metal-ion Batteries
Author: Shanqing Zhang
Publisher: John Wiley & Sons
Total Pages: 229
Release: 2023-05-22
Genre: 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.

Polymerized Ionic Liquids

Polymerized Ionic Liquids
Author: Ali Eftekhari
Publisher: Royal Society of Chemistry
Total Pages: 564
Release: 2017-09-18
Genre: Science
ISBN: 1782629602
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The series covers the fundamentals and applications of different smart material systems from renowned international experts.

Functional Design of Advanced Polymer Architectures for Improved Lithium-ion Batteries

Functional Design of Advanced Polymer Architectures for Improved Lithium-ion Batteries
Author: David G Mackanic
Publisher:
Total Pages:
Release: 2020
Genre:
ISBN:
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Lithium ion batteries (LIBs) are ubiquitous for applications in consumer electronics, electric vehicles, and grid-scale energy storage. Despite rapidly increasing demand, modern LIBs face significant challenges with regards to their safety and energy density. Additionally, the rigid nature of existing LIBs precludes their use in emerging applications in flexible/wearable electronics. Polymeric materials promise to address many of the issues facing LIBs, yet the existing polymers used commercially fall short of this goal. In this work, we design functional polymer materials to address three major challenges for next-generation LIBs. We explore the structure-property relationships of these polymer architectures in the context of ion transport, mechanical properties, and electrochemical performance. In the first project, a new polymer electrolyte is designed to replace the flammable liquid electrolyte in conventional LIBs. We study the effect of lithium ion coordination in polymer electrolytes and discover a modified polymeric backbone that loosely coordinates to lithium ions. The loose coordination of this new polymer electrolyte enables an improved lithium transference number of 0.54, compared to 0.2 achieved in conventional polymer electrolytes. This polymer electrolyte is demonstrated to operate effectively in a battery with a lithium-metal anode. In the second project, the learnings of the lithium coordination environment from the first project are used to design a multifunctional polymer coating to stabilize high energy density lithium metal anodes. We combined loosely-coordinating fluorinated ligands dynamically bonded with single-ion-conductive metal centers. The resulting supramolecular polymer network functions as an excellent lithium metal coating, allowing for achievement of one of the highest-reported coulombic efficiencies and cycle lives of a lithium metal anode. A systematic investigation of the chemical structure of the coating reveals that the properties of dynamic flowability, single-ion transport, and electrolyte blocking are synergistic in improving Li-metal coating performance. This coating is applied in a commercially relevant lithium metal full-cell and increases the cycle life over two-fold compared to an uncoated anode. The final project uses supramolecular polymer design to create ultra-robust ion transport materials. We show that when soft ion conducting segments are combined with strong dynamically bonded moieties in the polymer backbone, the ion transport properties can be decoupled from the mechanical properties. This decoupling enables for the creation of polymer electrolytes with extremely high toughness and high ionic conductivity. These supramolecular materials enable the fabrication of stretchable and deformable batteries that demonstrate respectable energy density even when stretched to 70% of their original length. Overall, the work demonstrated in this thesis provides a robust understanding towards designing polymer networks with tunable ion transport and mechanical properties. Additionally, the polymer materials demonstrated here provide promising avenues toward improving the safety, energy density, and flexibility of LIBs.

Polymer Electrolytes

Polymer Electrolytes
Author: Tan Winie
Publisher: John Wiley & Sons
Total Pages: 416
Release: 2020-02-18
Genre: Science
ISBN: 3527342001
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A comprehensive overview of the main characterization techniques of polymer electrolytes and their applications in electrochemical devices Polymer Electrolytes is a comprehensive and up-to-date guide to the characterization and applications of polymer electrolytes. The authors ? noted experts on the topic ? discuss the various characterization methods, including impedance spectroscopy and thermal characterization. The authors also provide information on the myriad applications of polymer electrolytes in electrochemical devices, lithium ion batteries, supercapacitors, solar cells and electrochromic windows. Over the past three decades, researchers have been developing new polymer electrolytes and assessed their application potential in electrochemical and electrical power generation, storage, and conversion systems. As a result, many new polymer electrolytes have been found, characterized, and applied in electrochemical and electrical devices. This important book: -Reviews polymer electrolytes, a key component in electrochemical power sources, and thus benefits scientists in both academia and industry -Provides an interdisciplinary resource spanning electrochemistry, physical chemistry, and energy applications -Contains detailed and comprehensive information on characterization and applications of polymer electrolytes Written for materials scientists, physical chemists, solid state chemists, electrochemists, and chemists in industry professions, Polymer Electrolytes is an essential resource that explores the key characterization techniques of polymer electrolytes and reveals how they are applied in electrochemical devices.

Handbook of Smart Materials, Technologies, and Devices

Handbook of Smart Materials, Technologies, and Devices
Author: Chaudhery Mustansar Hussain
Publisher: Springer
Total Pages: 0
Release: 2022-10-19
Genre: Technology & Engineering
ISBN: 9783030842048
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This handbook brings together technical expertise, conceptual background, applications, and societal aspects of Industry 4.0: the evolution of automation and data exchange in fabrication technologies, materials processing, and device manufacturing at both experimental and theoretical model scales. The book assembles all the aspects of Industry 4.0, starting from the emergence of the concept to the consequences of its progression. Drawing on expert contributors from around the world, the volume details the technologies that sparked the fourth revolution and illustrates their characteristics, potential, and methods of use in the industrial and societal domains. In addition, important topics such as ethics, privacy and security are considered in a reality where all data is shared and saved remotely. The collection of contribution serve a very broad audience working in the fields of science and engineering, chemical engineering, materials science, nanotechnology, energy, environment, green chemistry, sustainability, electrical and electronic engineering, solid-state physics, surface science, aerosol technology, chemistry, colloid science, device engineering, and computer technology. This handbook ideal reference libraries in universities and industrial institutions, government and independent institutes, individual research groups and scientists.

Development of Functional Polymeric Materials for Lithium-ion Based Energy Storage Devices

Development of Functional Polymeric Materials for Lithium-ion Based Energy Storage Devices
Author: Zhuo Li
Publisher:
Total Pages: 0
Release: 2021
Genre:
ISBN:
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"The ever-growing energy demand of modern society calls for application of renewable energy sources. Among various renewable energy sources, solid-state lithium-ion battery (SSLIB) has become a rising star due to its high intrinsic safety, high energy density and sustainability compared with traditional liquid lithium-ion batteries. In the development of SSLIBs, solid polymer materials have attracted intensive attention due to their many desirable properties such as processibility, sustainability and low cost. This dissertation focused on the understanding and development of novel polymer materials for SSLIBs. Chapter 2 discusses a new strategy of modifying the structure of polymer electrolyte to increase its ionic conductivity while preserving other desirable properties, such as oxidative stability by utilizing flexible, oxidatively stable aliphatic segments. Hydrogenated nitrile butadiene rubber (HNBR) and nitrile butadiene rubber (NBR) was blended with lithium bis(trifluoromethanesulfonyl) imide (LiTFSI) to create polymer electrolytes. Their physical and electrochemical properties were characterized in detail. It was found that HNBR:LiTFSI has 3.1×10-7 S/cm at room temperature. Compared with unplasticized PAN:LiTFSI and unsaturated NBR:LiTFSI, ionic conductivity of HNBR:LiTFSI is significantly improved, while the oxidative stability of PAN:LiTFSI is preserved. Chapter 3 focuses on developing a more reliable measure of oxidative stability in polymer electrolyte. Oxidative stability is an important and widely referenced property of battery electrolytes, yet its measurement is often poorly conducted. A capacity-based electrochemical method that measures the reversibility of the system was developed. The absolute stability threshold of PEO/LiTFSI (3.6V vs. Li/Li+) and HNBR/LiTFSI (3.7V vs. Li/Li+) was measured with reversibility test, and further verified by a non-electrochemical method. Chapter 4 explores the possibility of expanding the role of polymeric materials from electrolyte to cathode. Anew cathode chemistry for thin-film battery was proposed and examined. A vapor deposited polymeric charge transfer complex (CTC) cathode, P4VP-ICl was investigated. Spectroscopic, stoichiometric, and electrochemical properties of the CTC complex was collected and analyzed. P4VP-ICI LIPON Li thin film battery was demonstrated on both rigid and flexible substrates. The flexible P4VP-ICI LIPON Li battery can be bent 180ʻ without losing electrochemical performance"--Pages x-xi.