Products related to Electrochemistry:
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Electrochemistry
The renowned Oxford Chemistry Primers series, which provides focused introductions to a range of important topics in chemistry, has been refreshed and updated to suit the needs of today's students, lecturers, and postgraduate researchers.The rigorous, yet accessible, treatment of each subject area is ideal for those wanting a primer in a given topic to prepare them for more advanced study or research.Moreover, cutting-edge examples and applications throughout the texts show the relevance of the chemistry being described to current research and industry.The learning features provided, including questions at the end of every chapter and online multiple-choice questions, encourage active learning and promote understanding.Furthermore, frequent diagrams, margin notes, further reading, and glossary definitions all help to enhance a student's understanding of these essential areas of chemistry.This brand new addition to the series provides the most accessible first introduction to electrochemistry, combining explanation of the fundamental concepts with practical examples of how they are applied in a range of real-world situations. Online resourcesThe online resources that accompany Electrochemistry include: For students: - Multiple-choice questions for self-directed learning - Online tutorials to explain difficult conceptsFor registered adopters of the text: - Figures from the book available to download
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Advances in Environmental Electrochemistry
Advances in Environmental Electrochemistry provides a solid foundation in the basics of environmental electrochemistry, including redox reactions for contaminant removal, bio-electrochemical systems, electrochemical reactor design and the various electrochemistry-based techniques for practical wastewater degradation, environmental remediation and bioenergy recovery from waste.Advanced technologies acting as key indicators for addressing the various aspects of environmental electrochemistry are covered as well as comparisons to conventional methods and potential ways forward to their application in bioremediation technology.This book will be of interest to chemical engineers, environmental engineers, and all those interested in environmental biotechnology, bio-electrochemical systems, electrochemical sensors, advanced oxidation processes, biological wastewater treatment, and waste to energy recovery.
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Basic Electrochemistry for Biotechnology
Basic Electrochemistry for Biotechnology Understand the basics of a thriving interdisciplinary research field Microbial electrochemistry is a subfield of bioelectrochemistry which concerns interactions between microbial organisms and electrically active surfaces such as electrodes.Its growth as a subject of research has been rapid in recent years, and its technological applications are many, particularly as the race to find sustainable organic energy sources accelerates. Basic Electrochemistry for Biotechnology offers an accessible overview of this interdisciplinary subject and its potential applications.Moving smoothly from the general to the specific, it offers both fundamental principles and some of the most relevant specific examples, such as biofilm electrodes, microbial fuel cells or microbial electrosynthesis cells, making it the ideal choice for building a working knowledge of this exciting new field.Its solid foundation of microbial electrochemical technologies also serves as a starting point for a wide range of applied research areas. Basic Electrochemistry for Biotechnology readers will also find: Carefully designed artistic illustrationsHands-on exercises throughout to facilitate entry into laboratory workNumerous illustrative examples and calculations designed to demonstrate and reinforce key principles Basic Electrochemistry for Biotechnology is the perfect point of entry into this growing field for both students and researchers.
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Batteries for Electric Vehicles : Materials and Electrochemistry
This fundamental guide teaches readers the basics of battery design for electric vehicles.Working through this book, you will understand how to optimise battery performance and functionality, whilst minimising costs and maximising durability.Beginning with the basic concepts of electrochemistry, the book moves on to describe implementation, control and management of batteries in real vehicles, with respect to the battery materials.It describes how to select cells and batteries with explanations of the advantages and disadvantages of different battery chemistries, enabling readers to put their knowledge into practice and make informed and successful design decisions, with a thorough understanding of the trade-offs involved.The first of its kind, and written by an industry expert with experience in academia, this is an ideal resource for both students and researchers in the fields of battery research and development as well as for professionals in the automotive industry extending their interest towards electric vehicles.
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What is electrochemistry 2?
Electrochemistry 2 is a branch of chemistry that deals with the study of chemical processes that involve the movement of electrons. It focuses on the relationship between electricity and chemical reactions, particularly in the context of redox reactions. This field explores how electrical energy can be converted into chemical energy and vice versa, and it has applications in various industries such as batteries, fuel cells, and corrosion prevention. Overall, electrochemistry 2 builds upon the fundamental principles of electrochemistry to further investigate the behavior of electrons in chemical systems.
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What is Electrochemistry 2?
Electrochemistry 2 is a branch of chemistry that focuses on the study of chemical reactions that involve the transfer of electrons. It explores the relationship between electricity and chemical reactions, including topics such as redox reactions, electrochemical cells, and electrolysis. This field is important in understanding processes such as corrosion, batteries, and fuel cells, and has applications in various industries including energy storage, materials science, and environmental science.
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Can someone solve this electrochemistry problem?
Yes, someone with a good understanding of electrochemistry principles and problem-solving skills should be able to solve an electrochemistry problem. By applying the relevant equations and concepts, analyzing the given data, and following a systematic approach, the problem can be solved step by step. It may require knowledge of redox reactions, cell potentials, and electrolysis principles to arrive at the correct solution.
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Is the text about electrochemistry correct?
The text about electrochemistry is correct in its explanation of the process of converting chemical energy into electrical energy through redox reactions. It accurately describes the role of electrodes, electrolytes, and the flow of electrons in generating electricity. Additionally, it correctly explains the principles behind electrochemical cells and their applications in batteries and fuel cells. Overall, the text provides an accurate overview of electrochemistry.
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Modern Aspects of Electrochemistry 30
Volume 30 of this authoritative series provides detailed information about current advances in both fundamental and applied electrochemical research.
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Silicon : Electrochemistry, Production, Purification and Applications
Silicon The expert reference on sustainable and energy-efficient production of photovoltaic-grade silicon materials Electrochemical methods, in particular molten-salt approaches, are a cost-effective, energy-efficient, and highly sustainable approach for producing solar-grade silicon.Surface micro- and nanostructuring methods for effective light harvesting, silicon electrorefining in molten salts, electrodeposition of photoresponsive films, and other related processes are likely to replace conventional carbothermic production methods.Silicon: Electrochemistry, Production, Purification and Applications presents an up-to-date summary of recent experimental and technological developments in the field, highlighting sustainable and energy-efficient processes for high-grade silicon production for a variety of photovoltaic and energy applications.Presented in a logical and concise format, this authoritative volume details the fundamental properties and technical processes of metal-grade silicon production and describes the various electrochemical methods for high-grade silicon production.Topics include silicon surface modification, chemical-physical structuring, porous and black silicon, electrochemical Si surface structuring and anodizing in molten salts, and more. Reviews the sustainable and energy-efficient production and purification of photovoltaic-grade silicon materials Summarizes recent progress in sustainable processes for high-grade silicon production Describes electrochemical methods for silicon production such as electrolysis, electrodeposition, and electrorefining Concludes with a discussion of future challenges and opportunities Written by a leading researcher in the field, Silicon: Electrochemistry, Production, Purification and Applications is a valuable resource for chemists and material scientists in academia and industry, particularly those working in sustainable energy development, photovoltaics, light harvesting efficiency, solar-to-chemical conversion, and production of solar-grade silicon, batteries, photoelectrodes, or silicon-based semiconductors.
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Science, Technology And Innovation Indicators : Lessons from the Development Experience in Africa
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CCEA A2 Unit 2 Chemistry Student Guide: Analytical, Transition Metals, Electrochemistry and Organic Nitrogen Chemistry
Exam Board: CCEALevel: A-levelSubject: ChemistryFirst Teaching: September 2016First Exam: June 2018Reinforce students' understanding throughout their course; clear topic summaries with sample questions and answers will improve exam technique to achieve higher gradesWritten by examiners and teachers, Student Guides:· Help students identify what they need to know with a concise summary of the topics examined in the AS and A-level specification· Consolidate understanding with exam tips and knowledge check questions· Provide opportunities to improve exam technique with sample graded answers to exam-style questions· Develop independent learning and research skills · Provide the content for generating individual revision notes
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How do you calculate concentration in electrochemistry?
In electrochemistry, concentration is typically calculated using the Nernst equation. The Nernst equation relates the concentration of a species to the cell potential of an electrochemical cell. By rearranging the Nernst equation, one can solve for the concentration of a species in the cell. This is particularly useful for determining the concentration of ions in solution based on the cell potential and other known parameters of the electrochemical cell. Additionally, concentration can also be calculated using Faraday's laws of electrolysis, which relate the amount of substance deposited or liberated at an electrode to the quantity of electricity that has passed through the cell.
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What is the significance of electrochemistry in relation to galvanic cells?
Electrochemistry is significant in relation to galvanic cells because it involves the study of chemical reactions that involve the transfer of electrons. Galvanic cells are devices that use redox reactions to generate electrical energy, and understanding the principles of electrochemistry is crucial in designing and optimizing these cells. By studying electrochemistry, researchers can develop more efficient galvanic cells for applications such as batteries and fuel cells, which are essential for various technologies and industries.
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I have no idea about the topic of chemistry and electrochemistry.
That's okay! Chemistry is the branch of science that deals with the properties, composition, and structure of substances, as well as the changes they undergo during chemical reactions. Electrochemistry is a subfield of chemistry that focuses on the study of the relationship between electricity and chemical reactions. If you're interested in learning more about these topics, there are plenty of resources available online and in books that can help you understand the basics and build your knowledge from there.
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I have no idea about the topics of chemistry and electrochemistry.
That's okay! Chemistry is the branch of science that deals with the composition, structure, properties, and reactions of matter. Electrochemistry is a subfield of chemistry that focuses on the study of the relationship between electricity and chemical reactions. If you're interested in learning more about these topics, there are plenty of resources available online and in textbooks that can help you gain a better understanding. Don't hesitate to reach out to teachers, tutors, or experts in the field for guidance and clarification.
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