Atomically Dispersed Metallic Materials for Electrochemical Energy Technologies PDF Download

Author: Wei Yan
Publisher: CRC Press
ISBN: 1000634310
Category : Science
Languages : en
Pages : 389

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Book Description
Atomically dispersed metallic materials (ADMMs) are the most advanced materials used in energy conversion and storage devices to improve their performance for portable electronics, electric vehicles, and stationary power stations. Atomically Dispersed Metallic Materials for Electrochemical Energy Technologies aims to facilitate research and development of ADMMs for applications in electrochemical energy devices. It provides a comprehensive description of the science and technology of ADMMs, including material selection, synthesis, characterization, and their applications in fuel cells, batteries, supercapacitors, and H2O/CO2/N2 electrolysis to encourage progress in commercialization of these clean energy technologies. Offers a comprehensive introduction to various types of ADMMs, their fabrication and characterization, and how to improve their performance Analyzes, compares, and discusses advances in different ADMMs in the application of electrochemical energy devices, including commercial requirements Describes cutting-edge methodologies in composite ADMM design, selection, and fabrication Summarizes current achievements, challenges, and future research directions Written by authors with strong academic and industry expertise, this book will be attractive to researchers and industry professionals working in the fields of materials, chemical, mechanical, and electrical engineering, as well as nanotechnology and clean energy.

Author: Jens K. Nørskov
Publisher: John Wiley & Sons
ISBN: 1118888952
Category : Technology & Engineering
Languages : en
Pages : 228

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Book Description
This book is based on a graduate course and suitable as a primer for any newcomer to the field, this book is a detailed introduction to the experimental and computational methods that are used to study how solid surfaces act as catalysts. Features include: First comprehensive description of modern theory of heterogeneous catalysis Basis for understanding and designing experiments in the field Allows reader to understand catalyst design principles Introduction to important elements of energy transformation technology Test driven at Stanford University over several semesters

Author: Richard L. Myers
Publisher: Bloomsbury Publishing USA
ISBN: 0313080577
Category : Science
Languages : en
Pages : 352

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Book Description
What is a chemical compound? Compounds are substances that are two or more elements combined together chemically in a standard proportion by weight. Compounds are all around us - they include familiar things, such as water, and more esoteric substances, such as triuranium octaoxide, the most commonly occurring natural source for uranium. This reference guide gives us a tour of 100 of the most important, common, unusual, and intriguing compounds known to science. Each entry gives an extensive explanation of the composition, molecular formula, and chemical properties of the compound. In addition, each entry reviews the relevant chemistry, history, and uses of the compound, with discussions of the origin of the compound's name, the discovery or first synthesis of the compound, production statistics, and uses of the compound.

Author: Alagarsamy Pandikumar
Publisher: John Wiley & Sons
ISBN: 352734926X
Category : Technology & Engineering
Languages : en
Pages : 356

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Book Description
Explores the sustainable production of carbon materials and their applications Of increasing interest to practitioners and researchers in a variety of areas, biomass-derived carbon materials can be easily produced and possess the large surface areas and porosities that enable many applications in materials science, biochemistry, chemistry, and energy research. In Biomass-Derived Carbon Materials: Production and Applications, a team of accomplished researchers delivers a thorough and up-to-date exploration of the preparation and activation processes of biomass-derived carbon materials, the fabrication of composites, and assorted and multidisciplinary applications of the technology. The book also covers future opportunities for research and application. Introductory chapters provide information about the production, functionalization, and characterization of biomass-derived carbon materials, while the latter parts of this edited volume discuss the applications of biomass-derived carbon materials such as catalysis, sensors, microbicidal activity, toxic chemicals removal, drug delivery, and energy conversion and storage applications. The book also includes: A thorough introduction to the production of biomass-derived carbon materials, as well as their characterization Comprehensive explorations of biomass-derived carbon-based materials for microbicidal applications and carbon-based nanomaterials prepared from biomass for catalysis Practical discussions of biomass-derived carbon quantum dots for fluorescence sensors and mesoporous carbon nanomaterials for drug delivery and imaging applications In-depth examinations of biomass-derived carbon as electrode materials for batteries and porous carbon synthesized from biomass for fuel cells Ideal for materials scientists as well as industrial chemists and biochemists, Biomass-Derived Carbon Materials: Production and Applications also belongs in the libraries of electrochemists and sensor developers.

Author: Zhiqun Lin
Publisher: CRC Press
ISBN: 1000818004
Category : Science
Languages : en
Pages : 280

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Book Description
Electrochemical conversion process can be used to generate power, store energy and synthesize chemicals, which plays a key role in the development of sustainable energy resources. Electrochemical Transformation of Renewable Compounds presents the basic fundamentals of different electrochemical transformations for clean energy and places significant emphasis on the key developments of various electrochemical processes using state-of-the-art materials. Written by electrochemical energy scientists who have worked on the application of electrocatalysis in the environmental and energy area, this book provides comprehensive coverage of main electrochemical transformation processes, including oxygen evolution, hydrogen generation, oxygen reduction, carbon dioxide reduction, nitrogen reduction, methanol oxidation, urea oxidation and ammonia oxidation.

Author: Alessandro Lavacchi
Publisher: Springer Science & Business Media
ISBN: 1489980598
Category : Technology & Engineering
Languages : en
Pages : 334

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Book Description
This book focuses on nanotechnology in electrocatalysis for energy applications. In particular the book covers nanostructured electrocatalysts for low temperature fuel cells, low temperature electrolyzers and electrochemical valorization. The function of this book is to provide an introduction to basic principles of electrocatalysis, together with a review of the main classes of materials and electrode architectures. This book will illustrate the basic ideas behind material design and provide an introductory sketch of current research focuses. The easy-to-follow three part book focuses on major formulas, concepts and philosophies. This book is ideal for professionals and researchers interested in the field of electrochemistry, renewable energy and electrocatalysis.

Author: Zongping Shao
Publisher: John Wiley & Sons
ISBN: 3527350462
Category : Technology & Engineering
Languages : en
Pages : 309

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Book Description
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: Guokang Han
Publisher: OAE Publishing Inc.
ISBN:
Category : Technology & Engineering
Languages : en
Pages : 30

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Book Description
The development of various high-performance electrochemical devices is crucial for mitigating the global climate crisis, and thus the design and fabrication of advanced electrode materials is highly significant. Currently, atomically dispersed metal on catalysts (ADMCs) have shown great potential in boosting the performance of various energy storage/conversion devices involving aqueous and aprotic catalytic processes, including fuel cells, water electrolyzers, CO2 electrolyzers, metal-air batteries, and metal-sulfur batteries, as well as systems involving noncatalytic deposition/adsorption of metals. To date, several reliable fabrication methodologies that can ensure the formation of ADMCs have been demonstrated, and continuous optimization is still being performed. To further reinforce the basic scientific research and promote possible practical applications of these materials, we have analyzed, compared, and summarized progress in the fabrication methodology and formation mechanism of ADMCs in this review. This review aims to draw a comprehensive picture of the current methodology and underlying mechanism in the field of material fabrication to serve as guidance for future material design.

Author: Cunjin Zhang
Publisher: OAE Publishing Inc.
ISBN:
Category : Technology & Engineering
Languages : en
Pages : 14

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Book Description
Electrolysis of water to produce hydrogen (H) can solve the current energy crisis and environmental problems. However, efficient hydrogen evolution reaction (HER) catalysts are still limited to a few noble metals, thus prohibiting their broad applications. Herein, first-principles calculations were carried out to investigate the theoretical HER performances of a series of N-doped graphenes containing inexpensive single- and dual-metal atoms. Among them, MN4-gra (M = Fe, Co, Ni), homonuclear MMN6-gra, and heteronuclear M1M2N6-gra mostly exhibit low HER activities due to the weak H adsorption, and only CoN4-gra, NiNiN6-gra, and CoNiN6-gra show better ΔG*H values of 0.19, 0.15 and 0.27 eV, respectively. In contrast, low-coordinated MMN5-gra and M1M2N5-gra both have rather high HER activities. In particular, the ΔG*H values of FeNiN5-gra and CoNiN5-gra are as low as -0.04 and -0.06 eV, respectively, very close to the ideal 0 eV. Detailed analyses reveal that such high activity mainly stems from the reduced metal coordination and the synergistic effect between the two metals, which greatly enhance the adsorption ability of the active center. More interestingly, the strong H adsorption of MMN5-gra/M1M2N5-gra could enable them to further adsorb a second H atom and generate a stable HMH intermediate to yield the final product H2. Under this novel mechanism, the two-step |ΔG*H| values of FeNiN5-gra and CoNiN5-gra are all no more than 0.10 eV. Our work not only discloses the important effect of coordination regulation and site synergy on enhancing the catalytic activity but also finds a new HER path on the metal-embedded N-doped graphenes.

Author: Tuan Anh Nguyen
Publisher: CRC Press
ISBN: 1000632911
Category : Science
Languages : en
Pages : 506

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Book Description
Covalent organic frameworks-based nanomaterials have emerged as promising candidates for energy applications owing to their superior electrochemical properties, surface area, nano-device integration, multifunctionality, printability, and mechanical flexibility. This book provides fundamentals, various synthesis approaches, and applications of covalent organic frameworks-based nanomaterials and their composites for generating energy. The main objective of this book is to provide current, state-of-the-art knowledge about covalent organic frameworks-based nanomaterials and their composites for supercapacitors, batteries, photovoltaics, and fuel cells, covering almost the entire spectrum in the energy field under one title. Aimed at widening our fundamental understanding of covalent organic frameworks and mechanisms for realization and advancement in devices with improved energy efficiency and high storage capacity, this book will provide new directions for scientists, researchers, and students to better understand the principles, technologies, and applications of covalent organic frameworks.