Titanium Dioxide Silicon Oxycarbide Hybrid Polymer Derived Ceramic As High Energy Power Lithium Ion Battery Anode Material PDF Download

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Titanium Dioxide/ Silicon Oxycarbide Hybrid Polymer Derived Ceramic as High Energy & Power Lithium Ion Battery Anode Material

Titanium Dioxide/ Silicon Oxycarbide Hybrid Polymer Derived Ceramic as High Energy & Power Lithium Ion Battery Anode Material
Author: Saksham Pahwa
Publisher:
Total Pages:
Release: 2016
Genre:
ISBN:
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Energy has always been one of the most important factors in any type of human or industrial endeavor. Clean energy and alternative energy sources are slowly but steadily replacing fossil fuels, the over-dependence on which have led to many environmental and economic troubles over the past century. The main challenge that needs to be addressed in switching to clean energy is storing it for use in the electrical grid and transportation systems. Lithium ion batteries are currently one of the most promising energy storage devices and tremendous amount of research is being done in high capacity anode and cathode materials, and better electrolytes and battery packs as well, leading to overall high efficiency and capacity energy storage systems. Polymer derived ceramics (PDCs) are a special class of ceramics, usually used in high temperature applications, but some silicon based PDCs have demonstrated good electrochemical properties in lithium ion batteries. The goal of this research is to explore a special hybrid ceramic of titanium dioxide (TiO2) and silicon oxy carbide (SiOC) ceramic derived from 1,3,5,7 -- tetravinyl -- 1,3,5,7 -- tetramethylcyclotetrasiloxane (TTCS) polymer for use in lithium ion batteries and investigate the source of its properties which might make the ceramic particularly useful in some highly specialized energy storage applications.

Silicon Anode Systems for Lithium-Ion Batteries

Silicon Anode Systems for Lithium-Ion Batteries
Author: Prashant N. Kumta
Publisher: Elsevier
Total Pages: 536
Release: 2021-09-10
Genre: Technology & Engineering
ISBN: 0323851819
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Silicon Anode Systems for Lithium-Ion Batteries is an introduction to silicon anodes as an alternative to traditional graphite-based anodes. The book provides a comprehensive overview including abundance, system voltage, and capacity. It provides key insights into the basic challenges faced by the materials system such as new configurations and concepts for overcoming the expansion and contraction related problems. This book has been written for the practitioner, researcher or developer of commercial technologies. Provides a thorough explanation of the advantages, challenge, materials science, and commercial prospects of silicon and related anode materials for lithium-ion batteries Provides insights into practical issues including processing and performance of advanced Si-based materials in battery-relevant materials systems Discusses suppressants in electrolytes to minimize adverse effects of solid electrolyte interphase (SEI) formation and safety limitations associated with this technology

Polymer Derived Ceramic for Lithium-ion Storage, and Electrospun Polyelectrolyte Fiber for Heavy Metal Ions Removal

Polymer Derived Ceramic for Lithium-ion Storage, and Electrospun Polyelectrolyte Fiber for Heavy Metal Ions Removal
Author: Zeyang Zhang
Publisher:
Total Pages: 0
Release: 2022
Genre:
ISBN:
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This dissertation includes two major projects. The first project investigated the great potential of polymer-derived ceramics (PDCs) as lithium-ion battery anode materials with good cycling stability and large capacity. SiCNO ceramic nanoparticles were produced by pyrolysis of polysilazane nanoparticles synthesized via an oil-in-oil emulsion crosslinking. The SiCNO nanoparticles had an average particle size of around 9 nm and contained graphitic carbon, Si3N4, and SiO2 domains. The electrochemical behavior of SiCNO nanoparticles anode was investigated to evaluate the Li-ion storage performance and understand its mechanism of Li-ion storage. The lithiation of SiCNO was observed at ~0.385 V versus Li/Li+. The anode had a large capacity of 705 mAh g−1 after 350 cycles with a current density of 0.1 A g−1. Moreover, it showed excellent cyclic stability with a capacity decay of 0.049 mAh g−1 (0.0097%) per cycle. In situ TEM analysis demonstrated that the SiCNO nanoparticles exhibit extraordinary structural stability with only 9.36% linear expansion in the lithiation process. The second project investigated the removal of heavy metals ions from wastewater using electrospun polyelectrolyte fibers of polyacrylic acid (PAA) and polyallylamine hydrochloride (PAH). Polyelectrolyte fiber mats were fabricated by electrospinning followed by thermal crosslinking. The fiber mats were evaluated for their efficiency in removing heavy metals in synthetic metal solutions. 70 %, 98 %, and 92 % removals of Pb2+, Cd2+, and Cu2+, respectively, were observed at pH 7.4. Metal ion-carboxylate complexations were studied by FT-IR spectra, which indicate carboxylate groups from PAA play important role in heavy metal ion removal.

Boron Nitride Nanotube-modified Silicon Oxycarbide Ceramic Composite

Boron Nitride Nanotube-modified Silicon Oxycarbide Ceramic Composite
Author: Monsuru A. Abass
Publisher:
Total Pages:
Release: 2017
Genre:
ISBN:
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Polymer-derived ceramics (PDCs) such as silicon oxycarbide (SiOC) have shown promise as an electrode material for rechargeable Li-ion batteries (LIBs) owing to the synergy between its disordered carbon phase and hybrid bonds of silicon with oxygen and carbon. In addition to their unique structure, PDCs are known for their high surface area (~822.7 m2 g−1), which makes them potential candidates for supercapacitor applications. However, low electrical conductivity, voltage hysteresis, and first cycle lithium irreversibility have hindered their introduction into commercial devices. One approach to improving charge storage capacity is by interfacing the preceramic polymer with boron or aluminium prior pyrolysis. Recent research has shown that chemical interfacing with elemental boron, bulk boron powders and even exfoliated sheets of boron nitride leads to enhancements in thermal and electronic properties of the ceramic. This thesis reports the synthesis of a new type of PDC composite comprising of SiOC embedded with boron nitride nanotubes (BNNTs). This was achieved through the introduction of BNNT in SiOC pre-ceramic polymer at varying wt.% loading (0.25, 0.5 and 2.0 wt.%) followed by thermolysis at high temperature. Electron microscopy and a range of spectroscopy techniques were employed to confirm the polymer-to-ceramic transformation and presence of disordered carbon phase. Transmission electron microscopy confirmed the tubular morphology of BNNT in the composite. To test the material for electrochemical applications, the powders were then made into free-standing paper-like electrodes with reduced graphene oxide (rGO) acting as support material. The synthesized free-standing electrodes were characterized and tested as electrochemical energy storage materials for LIBs and symmetric supercapacitor applications. Among the SiOC-BNNT composite paper tested as anode materials for LIBs, the 0.25 wt.% BNNT composite paper demonstrated the highest first cycle lithiation capacity corresponding to 812 mAh g−1 (at a current density of 100 mA g−1) with a stable charge capacity of 238 mAh g−1 when asymmetrically cycled after 25 cycles. On the contrary, the 0.5 wt.% BNNT composite paper demonstrated the highest specific capacitance corresponding to 78.93 F g−1 at a current density of 1 A g−1 and a cyclic retention of 86% after 185 cycles. This study shows that the free carbon content of SiOC-BNNT ceramic composite can be rationally modified by varying the wt.% of BNNT. As such, the paper composite can be used as an electrode material for electrochemical energy storage.

Vertically-Oriented Graphene

Vertically-Oriented Graphene
Author: Junhong Chen
Publisher: Springer
Total Pages: 121
Release: 2015-03-23
Genre: Technology & Engineering
ISBN: 3319153021
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This book introduces the basic concepts, synthesis techniques, and applications of vertically-oriented graphene. The authors detail emerging applications of vertically-oriented graphene such as field emitters, atmospheric nanoscale corona discharges, gas sensors and biosensors, supercapacitors, lithium-ion batteries, fuel cells (catalyst supports) and electrochemical transducers. They offer a perspective on current challenges to enabling commercial applications of vertically-oriented graphene.

Molten Salt Technology

Molten Salt Technology
Author: David G. Lovering
Publisher: Springer
Total Pages: 536
Release: 2014-11-14
Genre: Education
ISBN: 1475717245
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Advances in Powder and Ceramic Materials Science 2023

Advances in Powder and Ceramic Materials Science 2023
Author: Bowen Li
Publisher: Springer Nature
Total Pages: 175
Release: 2023-02-10
Genre: Technology & Engineering
ISBN: 3031226224
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This collection emphasizes the advances of powder and ceramic/glass materials in the fundamental research, technology development, and industrial applications. Ceramic materials science covers the science and technology of creating objects from inorganic, non-metallic materials, and includes design, synthesis, and fabrication of ceramics, glasses, advanced concretes, and ceramic-metal composites. In recent years, the hybrids of ceramic and metallic materials have received plenty of interdisciplinary inspirations and achievements in material processes and functional applications including ionic conductors, catalysis, energy conversion and storage, superconductors, semiconductor, filtrations, etc. Topics cover, but are not limited to:· Silicates, oxides, and non-oxide ceramics and glasses · Synthesis, characterization, modeling, and simulation of ceramic materials · Design and control of ceramic microstructure and properties · Ceramic powders and processing · Catalyst and catalyst support materials · Fundamental understanding of ceramic materials and processes · Novel methods, techniques, and instruments used to characterize ceramics and glasses · High entropy ceramics (and/or entropy stabilized, complex-concentrated, compositionally-complex, multi-principal cation ceramics) · Bioceramics, electronic, magnetic ceramics, and applications · Surface treatment and ceramic thin films, membranes, and coatings · Porous ceramic materials · Hybrid systems of ceramic, metal, and/or polymer composites · Ceramics used for extreme environments · Metallurgical byproducts for ceramic manufacturing

Nanoparticulate Materials

Nanoparticulate Materials
Author: Kathy Lu
Publisher: John Wiley & Sons
Total Pages: 379
Release: 2012-09-25
Genre: Technology & Engineering
ISBN: 1118408950
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Serving as the only systematic and comprehensive treatment on the topic of nanoparticle-based materials, this book covers synthesis, characterization, assembly, shaping and sintering of all types of nanoparticles including metals, ceramics, and semiconductors. A single-authored work, it is suitable as a graduate-level text in nanomaterials courses.

Conducting Polymers, Fundamentals and Applications

Conducting Polymers, Fundamentals and Applications
Author: Prasanna Chandrasekhar
Publisher: Springer
Total Pages: 815
Release: 2018-02-28
Genre: Technology & Engineering
ISBN: 3319693786
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The second edition of this popular textbook thoroughly covers the practical basics and applications of conducting polymers. It also addresses materials that have gained prominence since the first edition of this book was published, namely carbon nanotubes and graphene. The features of this new edition include: New and updated chapters on novel concepts in conducting polymers Details on interdisciplinary applications of conducting polymers An in depth description of classes of conducting polymers

Advanced Ceramics for Energy Conversion and Storage

Advanced Ceramics for Energy Conversion and Storage
Author: Olivier Guillon
Publisher: Elsevier
Total Pages: 750
Release: 2019-11-20
Genre: Technology & Engineering
ISBN: 0081027842
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In order to enable an affordable, sustainable, fossil-free future energy supply, research activities on relevant materials and related technologies have been intensified in recent years, Advanced Ceramics for Energy Conversion and Storage describes the current state-of-the-art concerning materials, properties, processes, and specific applications. Academic and industrial researchers, materials scientists, and engineers will be able to get a broad overview of the use of ceramics in energy applications, while at the same time become acquainted with the most recent developments in the field. With chapters written by recognized experts working in their respective fields the book is a valuable reference source covering the following application areas: ceramic materials and coatings for gas turbines; heat storage and exchange materials for solar thermal energy; ceramics for nuclear energy; ceramics for energy harvesting (thermoelectrics, piezoelectrics, and sunlight conversion); ceramic gas separation membranes; solid oxide fuel cells and electrolysers; and electrochemical storage in battery cells. Advanced Ceramics for Energy Conversion and Storage offers a sound base for understanding the complex requirements related to the technological fields and the ceramic materials that make them possible. The book is also suitable for people with a solid base in materials science and engineering that want to specialize in ceramics. Presents an extensive overview of ceramic materials involved in energy conversion and storage Updates on the tremendous progress that has been achieved in recent years Showcases authors at the forefront of their fields, including results from the huge amount of published data Provides a list of requirements for the materials used for each energy technology Includes an evaluation and comparison of materials available, including their structure, properties and performance