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This book provides targeted support for students taking courses at the undergraduate level involving electrochemical methods and voltammetry, precision analytical techniques used in chemical engineering, chemical research and development, and pharmaceutical science. The learning method applied in this book, and the contents chosen, have been specifically tried-and-tested to support students preparing for exams, and for those having difficulty absorbing concepts and attaining an analytical understanding of their application. Through this book, “written for students by a student,” the author provides accessible learning resources that address students’ needs when preparing for examinations.
This laboratory book delivers hands-on advice to researchers in all fields of life and physical sciences already applying or intending to apply electro-analytical methods in their research. The authors represent in a strictly practice-oriented manner not only the necessary theoretical background but also substantial know-how on measurement techniques, interpretation of data, experimental setup and trouble shooting. The author and the editor are well-known specialists in their field.
The latest edition of a classic textbook in electrochemistry The third edition of Electrochemical Methods has been extensively revised to reflect the evolution of electrochemistry over the past two decades, highlighting significant developments in the understanding of electrochemical phenomena and emerging experimental tools, while extending the book's value as a general introduction to electrochemical methods. This authoritative resource for new students and practitioners provides must-have information crucial to a successful career in research. The authors focus on methods that are extensively practiced and on phenomenological questions of current concern. This latest edition of Electrochemical Methods contains numerous problems and chemical examples, with illustrations that serve to illuminate the concepts contained within in a way that will assist both student and mid-career practitioner. Significant updates and new content in this third edition include: An extensively revised introductory chapter on electrode processes, designed for new readers coming into electrochemistry from diverse backgrounds New chapters on steady-state voltammetry at ultramicroelectrodes, inner-sphere electrode reactions and electrocatalysis, and single-particle electrochemistry Extensive treatment of Marcus kinetics as applied to electrode reactions, a more detailed introduction to migration, and expanded coverage of electrochemical impedance spectroscopy The inclusion of Lab Notes in many chapters to help newcomers with the transition from concept to practice in the laboratory The new edition has been revised to address a broader audience of scientists and engineers, designed to be accessible to readers with a basic foundation in university chemistry, physics and mathematics. It is a self-contained volume, developing all key ideas from the fundamental principles of chemistry and physics. Perfect for senior undergraduate and graduate students taking courses in electrochemistry, physical and analytical chemistry, this is also an indispensable resource for researchers and practitioners working in fields including electrochemistry and electrochemical engineering, energy storage and conversion, analytical chemistry and sensors.
Provides students with solutions to problems in the 3rd edition of the classic textbook Electrochemical Methods: Fundamentals and Applications Electrochemical Methods is a popular textbook on electrochemistry that takes the reader from the most basic chemical and physical principles, through fundamentals of thermodynamics, kinetics, and mass transfer, all the way to a thorough treatment of all important experimental methods. Holistically, it offers comprehensive coverage of all important topics in the field. To aid in reader comprehension, exercises are included at the end of each chapter which extend concepts introduced in the text or show how experimental data are reduced to fundamental results. This book provides worked solutions for many of the end-of-chapter exercises and is a key resource for any student who makes use of the original textbook.
Market_Desc: · Electrochemists· Research Chemists· Analytical Chemists Special Features: · This edition is fully revised to reflect the current state off the field· Significant additions include ultra microelectrodes, modified electrodes, and scanning probe methods· Many chapters have been modified and improved, including electrode kinetics, Volta metric methods, and mechanisms of coupled chemical reactions About The Book: The long-awaited revision of a classic! This widely-used resource takes the reader from the most basic chemical and physical principles through fundamentals of thermodynamics, kinetics, and mass transfer, to a thorough treatment of all important experimental methods. It offers almost full coverage of all important topics in the field, and is renowned for its accuracy and clear presentation.
This laboratory book delivers advice to researchers in all fields of life and physical sciences already applying or intending to apply electroanalytical methods in their research. The authors represent not only the necessary theoretical background but know-how on measurement techniques, interpretation of data and experimental setup.
In the past, only organic matter was available for making dyes. Today, there are numerous options and methods for the colorization of textiles. While today’s methods capitalize on efficiency, there is question as to whether the use of chemicals is harmful to the environment. A reputation for harming the earth could be detrimental to a company in a society becoming more and more focused on the environment and its preservation. Today, with the invention of synthetic materials used in textiles, many new types of dyes have been developed and put into regular use. There are two basic ways to color textiles: dyes and pigments. Pigments are not a dye but rather resins mechanically bound to fibers. Dyes are divided into classes according to the types of fibers they are most compatible with. Textile printing is related to dyeing but, whereas in dyeing proper the whole fabric is uniformly covered with one color, in printing one or more colors are applied to it in certain parts only, and in sharply defined patterns.Dyes will yield the softest hand (the "hand" is the feel of the fabric) and maintain the fabric's luster but the process is expensive. Pigments are much more economical to use. Pigments are generally more lightfast, more colorfast, and give greater color control. Pigment technology has developed tremendously in the past 15 years. 85% of the textile printing in the World is pigment printing.This book contains manufacturing process and other related details about Azine dyes, Azoic dyes, Azo dyes, Thiazole dyes, Triphenylmethane dyes, scientific classification of Vat dyes, fluorination of dyes, different types of pigments, applications, usages of dyes and pigments, quality control and evaluation of pigments and many more. This book will serve as a guide to Textile Technologists, Scientists and existing as well as upcoming industries.
Are electrochemical methods like asking the crystal ball? Once you read this book about electrochemistry on the micro- and nanoscale, you know it better. This textbook presents the essentials of electrochemical theory, sheds light on the instrumentation, including details on the electronics, and in the second part, discusses a wide variety of classical and advanced methods. The third part of the book covers how to apply the techniques for selected aspects of material science, microfabrication, nanotechnology, MEMS, NEMS, and energy applications. With this book, you will be able to successfully apply the methods in the fields of sensors, neurotechnology, biomedical engineering, and electrochemical energy systems. Undergraduate or Master students can read the book linearly as a comprehensive textbook. For Ph.D. students, postdoctoral researchers as well as for researchers in industry, the book will help by its clear structure to get fast answers from a specific section. The detailed understanding of the methods helps the reader successfully apply electrochemistry, especially at the micro- and nanoscale. Selected aspects illustrate the application of electrochemical methods in the fields of sensors, neurotechnology, biomedical engineering, and electrochemical energy systems.
Each volume of this series heralds profound changes in both the perception and practice of chemistry. This edition presents the state of the art of all important methods of instrumental chemical analysis, measurement and control. Contributions offer introductions together with sufficient detail to give a clear understanding of basic theory and apparatus involved and an appreciation of the value, potential and limitations of the respective techniques. The emphasis of the subjects treated is on method rather than results, thus aiding the investigator in applying the techniques successfully in the laboratory.