Electrochemistry is the study of chemical reactions with an exchange of electrons, and of the chemical phenomena that are caused by the action of applied currents and voltages. Analytical electrochemistry in textiles provides an overview of the synergy between electrochemistry and textiles, and the possibilities and innovative character of electrochemistry for textiles.Analytical electrochemistry in textiles is divided into four parts. In the first part an overview is given of the theory of electrochemistry as well as of practical considerations. The second part contains chapters in which the development of sensors is described for the optimisation and automation of textile finishing processes. In the third part the fundamentals of textile electrodes, used in a wide variety of applications, are summarised, as well as offering a developed study of a quality control method. Finally, the fourth part of the book is related to the functionalisation of fibres through chemical and electrochemical modification and some applications are given for these types of textile related electrodes.Written so that both non-electrochemists and non-textile specialists can understand it, Analytical electrochemistry in textiles is an important guide for textile, chemist and material science academics. It will also prove of great benefit for textile manufacturers, processors, dyers, colourists and finishers. Provides an overview of the synergy between electrochemistry and textiles An invaluable reference tool for textile, chemist and material science academics as well as textile manufacturers, processors, dyers, colourists and finishers
Electrochemistry is the study of chemical reactions with an exchange of electrons, and of the chemical phenomena that are caused by the action of applied currents and voltages. Analytical electrochemistry in textiles provides an overview of the synergy between electrochemistry and textiles, and the possibilities and innovative character of electrochemistry for textiles.Analytical electrochemistry in textiles is divided into four parts. In the first part an overview is given of the theory of electrochemistry as well as of practical considerations. The second part contains chapters in which the development of sensors is described for the optimisation and automation of textile finishing processes. In the third part the fundamentals of textile electrodes, used in a wide variety of applications, are summarised, as well as offering a developed study of a quality control method. Finally, the fourth part of the book is related to the functionalisation of fibres through chemical and electrochemical modification and some applications are given for these types of textile related electrodes.Written so that both non-electrochemists and non-textile specialists can understand it, Analytical electrochemistry in textiles is an important guide for textile, chemist and material science academics. It will also prove of great benefit for textile manufacturers, processors, dyers, colourists and finishers. Provides an overview of the synergy between electrochemistry and textiles An invaluable reference tool for textile, chemist and material science academics as well as textile manufacturers, processors, dyers, colourists and finishers
Before discussing the central framing guiding this book (see Chapter 3), it is first important to provide foundational knowledge about self-injury. Accordingly, this chapter addresses key areas within the field of self-injury, including how self-injury is defined, who self-injures, what might contribute to self-injury engagement, the reasons people may have for self-injury, and the risks associated with engaging in self-injury. In Chapter 2, we build on this by discussing the link between self-injury and suicide. Collectively, these two chapters provide the groundwork from which to understand and apply the person-centred, strengths-based framework woven throughout the remainder of the book"--
Annual cotton production exceeds 25 million metric tons and accounts for more than 40 percent of the textile fiber consumed worldwide. A key textile fiber for over 5000 years, this complex carbohydrate is also one of the leading crops to benefit from genetic engineering. Cotton Fiber Chemistry and Technology offers a modern examination of co
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