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Electrochemical and Electrocatalytic Reactions of Carbon Dioxide

Electrochemical and Electrocatalytic Reactions of Carbon Dioxide
Author: B.P. Sullivan
Publisher: Elsevier
Total Pages: 314
Release: 2012-12-02
Genre: Science
ISBN: 0444596615
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The recycling of atmospheric molecules for use as fuels and chemicals is a goal which can only be achieved through a deeper understanding of catalytic processes, particularly electrocatalysis whereby redox transformations can be interfaced with solar or nuclear energy input. Carbon dioxide is a prototypical small molecule in many regards since it is chemically inert. In addition, because of the likely role of carbon dioxide in global temperature cycles, it will be imperative in the future to regulate the output from industrial processes. The purpose of this book is to present a unified discussion of the carbon dioxide chemistry which is necessary for the understanding and design of electrochemically-driven processes for the reduction of carbon dioxide and to provide an impetus for the further development of electrocatalytic carbon dioxide chemistry.

Electrochemical Reduction of Carbon Dioxide

Electrochemical Reduction of Carbon Dioxide
Author: Jinli Qiao
Publisher: CRC Press
Total Pages: 468
Release: 2016-07-06
Genre: Science
ISBN: 1138032093
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For Researchers, Students, Industrial Professionals, and ManufacturersElectrochemical Reduction of Carbon Dioxide: Fundamentals and Technologies is your guide to improved catalytic performance in the electrochemical reduction of carbon dioxide (CO2). Written by electrochemical energy scientists actively involved in environmental research and develo

Carbon Dioxide Electrochemistry

Carbon Dioxide Electrochemistry
Author: Marc Robert
Publisher: Royal Society of Chemistry
Total Pages: 461
Release: 2020-10-14
Genre: Science
ISBN: 1788019407
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Conversion of light and electricity to chemicals is an important component of a sustainable energy system. The exponential growth in renewable energy generation implies that there will be strong market pull for chemical energy storage technology in the near future, and here carbon dioxide utilization must play a central role. The electrochemical conversion of carbon dioxide is key in achieving these goals. Carbon Dioxide Electrochemistry showcases different advances in the field, and bridges the two worlds of homogeneous and heterogeneous catalysis that are often perceived as in competition in research. Chapters cover homogeneous and heterogeneous electrochemical reduction of CO2, nanostructures for CO2 reduction, hybrid systems for CO2 conversion, electrochemical reactors, theoretical approaches to catalytic reduction of CO2, and photoelectrodes for electrochemical conversion. With internationally well-known editors and authors, this book will appeal to graduate students and researchers in energy, catalysis, chemical engineering and chemistry who work on carbon dioxide.

Modern Aspects of Electrochemistry 42

Modern Aspects of Electrochemistry 42
Author: Constantinos G. Vayenas
Publisher: Springer Science & Business Media
Total Pages: 434
Release: 2008-03-08
Genre: Science
ISBN: 0387494898
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This volume analyzes and summarizes recent developments in several key interfacial electrochemical systems in the areas of fuel cell electrocatatalysis, electrosynthesis and electrodeposition. The six Chapters are written by internationally recognized experts in these areas and address both fundamental and practical aspects of several existing or emerging key electrochemical technologies. The Chapter by R. Adzic, N. Marinkovic and M. Vukmirovic provides a lucid and authoritative treatment of the electrochemistry and electrocatalysis of Ruthenium, a key element for the devel- ment of efficient electrodes for polymer electrolyte (PEM) fuel cells. Starting from fundamental surface science studies and interfacial considerations, this up-to-date review by some of the pioneers in this field, provides a deep insight in the complex catalytic-electrocatalytic phenomena occurring at the interfaces of PEM fuel cell electrodes and a comprehensive treatment of recent developments in this extremely important field. Several recent breakthroughs in the design of solid oxide fuel cell (SOFC) anodes and cathodes are described in the Chapter of H. Uchida and M. Watanabe. The authors, who have pioneered several of these developments, provide a lucid presentation d- cribing how careful fundamental investigations of interfacial electrocatalytic anode and cathode phenomena lead to novel electrode compositions and microstructures and to significant practical advances of SOFC anode and cathode stability and enhanced electrocatalysis.

Photo- and Electro-Catalytic Processes

Photo- and Electro-Catalytic Processes
Author: Jianmin Ma
Publisher: John Wiley & Sons
Total Pages: 596
Release: 2022-01-25
Genre: Technology & Engineering
ISBN: 352734859X
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Explore green catalytic reactions with this reference from a renowned leader in the field Green reactions—like photo-, photoelectro-, and electro-catalytic reactions—offer viable technologies to solve difficult problems without significant damage to the environment. In particular, some gas-involved reactions are especially useful in the creation of liquid fuels and cost-effective products. In Photo- and Electro-Catalytic Processes: Water Splitting, N2 Fixing, CO2 Reduction, award-winning researcher Jianmin Ma delivers a comprehensive overview of photo-, electro-, and photoelectron-catalysts in a variety of processes, including O2 reduction, CO2 reduction, N2 reduction, H2 production, water oxidation, oxygen evolution, and hydrogen evolution. The book offers detailed information on the underlying mechanisms, costs, and synthetic methods of catalysts. Filled with authoritative and critical information on green catalytic processes that promise to answer many of our most pressing energy and environmental questions, this book also includes: Thorough introductions to electrocatalytic oxygen reduction and evolution reactions, as well as electrocatalytic hydrogen evolution reactions Comprehensive explorations of electrocatalytic water splitting, CO2 reduction, and N2 reduction Practical discussions of photoelectrocatalytic H2 production, water splitting, and CO2 reduction In-depth examinations of photoelectrochemical oxygen evolution and nitrogen reduction Perfect for catalytic chemists and photochemists, Photo- and Electro-Catalytic Processes: Water Splitting, N2 Fixing, CO2 Reduction also belongs in the libraries of materials scientists and inorganic chemists seeking a one-stop resource on the novel aspects of photo-, electro-, and photoelectro-catalytic reactions.

Electrocatalysis in Balancing the Natural Carbon Cycle

Electrocatalysis in Balancing the Natural Carbon Cycle
Author: Yaobing Wang
Publisher: John Wiley & Sons
Total Pages: 60
Release: 2021-08-23
Genre: Science
ISBN: 3527349138
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Electrocatalysis in Balancing the Natural Carbon Cycle Explore the potential of electrocatalysis to balance an off-kilter natural carbon cycle In Electrocatalysis in Balancing the Natural Carbon Cycle, accomplished researcher and author, Yaobing Wang, delivers a focused examination of why and how to solve the unbalance of the natural carbon cycle with electrocatalysis. The book introduces the natural carbon cycle and analyzes current bottlenecks being caused by human activities. It then examines fundamental topics, including CO2 reduction, water splitting, and small molecule (alcohols and acid) oxidation to prove the feasibility and advantages of using electrocatalysis to tune the unbalanced carbon cycle. You’ll realize modern aspects of electrocatalysis through the operando diagnostic and predictable mechanistic investigations. Further, you will be able to evaluate and manage the efficiency of the electrocatalytic reactions. The distinguished author presents a holistic view of solving an unbalanced natural carbon cycle with electrocatalysis. Readers will also benefit from the inclusion of: A thorough introduction to the natural carbon cycle and the anthropogenic carbon cycle, including inorganic carbon to organic carbon and vice versa An exploration of electrochemical catalysis processes, including water splitting and the electrochemistry CO2 reduction reaction (ECO2RR) A practical discussion of water and fuel basic redox parameters, including electrocatalytic materials and their performance evaluation in different electrocatalytic cells A perspective of the operando approaches and computational fundamentals and advances of different electrocatalytic redox reactions Perfect for electrochemists, catalytic chemists, environmental and physical chemists, and inorganic chemists, Electrocatalysis in Balancing the Natural Carbon Cycle will also earn a place in the libraries of solid state and theoretical chemists seeking a one-stop reference for all aspects of electrocatalysis in carbon cycle-related reactions.

CO2 as a Building Block in Organic Synthesis

CO2 as a Building Block in Organic Synthesis
Author: Shoubhik Das
Publisher: John Wiley & Sons
Total Pages: 623
Release: 2020-09-16
Genre: Science
ISBN: 3527821961
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A guide to the fascinating application of CO2 as a building block in organic synthesis This important book explores modern organic synthesis’ use of the cheap, non-toxic and abundant chemical CO2as an attractive C1 building block. With contributions from an international panel of experts, CO2 as a Building Block in Organic Synthesis offers a review of the most important reactions which use CO2 as a building block in organic synthesis. The contributors examine a wide-range of CO2 reactions including methylation reactions, CH bond functionalization, carboxylation, cyclic carbonate synthesis, multicomponent reactions, and many more. The book reviews the most recent developments in the field and also: Presents the most important reactions like CH-bond functionalization, carboxylation, carbonate synthesis and many more Contains contributions from an international panel of experts Offers a comprehensive resource for academics and professionals in the field Written for organic chemists, chemists working with or on organometallics, catalytic chemists, pharmaceutical chemists, and chemists in industry, CO2 as Building Block in Organic Synthesis contains an analysis of the most important reactions which use CO2 as an effective building block in organic synthesis.

Electrochemical Reduction of Carbon Dioxide

Electrochemical Reduction of Carbon Dioxide
Author: Frank Marken
Publisher: Royal Society of Chemistry
Total Pages: 282
Release: 2018-05-21
Genre: Business & Economics
ISBN: 1782620427
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Providing a comprehensive overview, this book is ideal for researchers and industrial chemists working in environmental science, electrochemistry and chemical engineering.

Electrochemical Carbon Dioxide Reduction to Formic Acid in a Flow Cell using Molecular Catalysts (Band 11)

Electrochemical Carbon Dioxide Reduction to Formic Acid in a Flow Cell using Molecular Catalysts (Band 11)
Author: Paul Rößner
Publisher: Cuvillier Verlag
Total Pages: 174
Release: 2023-02-09
Genre: Science
ISBN: 3736967381
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This work adresses the gap between basic research and applied research in the field of CO₂ electrolysis using molecular catalysts. The development of new catalysts includes important aspects of the industrial application as early as possible to unlock the true potential of a catalyst and to prevent potential problems that occur when changing to industrially relevant process conditions. The results show that unexpected phenomena can occur when scaling up a technology from lab scale to pilot, or even industrial scale, advocating an effort to come as close as possible to large scale conditions, already in the lab. That can prevent major setbacks in the process and save valuable time and effort. This aspect is underlined by recent research in the specific field of CO₂ electrolysis using organometallic complexes, as catalysts show different performance characteristics after immobilization, for example. The successful development of future solutions depends on the interdisciplinary collaboration taking into account molecular considerations as well as process engineering aspects.

Development of Experimental and Modeling Methods to Study Reaction-Transport Kinetics of Electrochemical Carbon Dioxide Reduction on Copper

Development of Experimental and Modeling Methods to Study Reaction-Transport Kinetics of Electrochemical Carbon Dioxide Reduction on Copper
Author: Joon Baek Jang
Publisher:
Total Pages: 0
Release: 2023
Genre:
ISBN:
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The development of devices for the electrocatalytic transformation of carbon dioxide to fuels and chemicals at global scales is a promising alternative to store renewable electricity from intermittent sources and reduce carbon emissions. The realization of a technology that can produce C2+ liquid fuels at high rates requires a concerted effort to develop an efficient and selective electrocatalyst. However, transport phenomena inherent in aqueous electrocatalysis interfere with the observation of intrinsic reaction kinetics. The knowledge gap in the field to distinguish reaction kinetics from reactor kinetics has created discrepancies in interpreting experimental results, hindering the establishment of a fundamental design equation for the scale-up of electrolyzers.Decoupling and understanding multi-scale transport phenomena involved in the electrocatalytic transformation of small molecules is challenging, but it can be achieved using relationships between dimensionless quantities that simplify the characterization of transport properties. In the first part of this dissertation, we report the development of the gastight rotating cylinder electrode (RCE) cell and demonstrate how the mass transport characteristics of an electrochemical cell can be quantified. The gastight RCE cell enables kinetics studies under well-defined transport conditions, making it the closest experimental apparatus to differential reactors in thermal catalysis. The application of dimensional analyses on a lab-scale electrochemical reactor should enable rigorous research and development of electrocatalytic technologies. In the following sections of the dissertation, we present a large experimental dataset of electrochemical CO2 reduction on polycrystalline copper electrodes collected under a broad range of well-defined transport regimes in the gastight RCE cell. The control of relative timescales of electrode surface reactions and transport processes enables systematic parametrization of a multi-scale reaction-transport kinetics model. The model utilizes a continuous stirred-tank reactor (CSTR) volume approximation of the electrode reaction front that captures mesoscale stochastic processes of reactants and intermediates at the electrode/electrolyte interface, which determines product selectivity. Product distributions under different conditions of applied potential, mass transport, bulk electrolyte concentration, temperature, and electrode porosity are rationalized by introducing dimensionless numbers that reduce complexity and represent relative timescales of dynamic transport phenomena and electrocatalytic reactions on copper electrodes. The CSTR model demonstrates that one CO2 reduction mechanism can explain differences in selectivity reported for copper-based electrocatalysts using the residence time as a descriptor. With the insights gained from the RCE cell and the CSTR model, we propose mechanistic pathways for each CO2 reduction product. This combinative approach of experimental electrocatalysis under well-defined transport characteristics and a new framework of the reactor design equation that captures relative timescales of multi-scale processes will open up discussions from a new perspective to study kinetics and scale-up electrocatalytic processes.