Advanced fiber materials have been developed for various superior applications because of their higher mechanical flexibility, high-temperature resistance, and outstanding chemical stability. This book presents an overview of the current development of advanced fiber materials, fabrication methods, and applications. Applications covered include pollution control, environment, energy, information storage technology, optical and photonic, photocatalysis, textile, drug delivery, tumor therapy, corrosion protection applications, and a state of art of advanced fiber materials.

Corrosion is a high-cost and potentially hazardous issue in numerous industries. The potential use of diverse carbon nanoallotropes in corrosion protection, prevention and control is a subject of rising attention. This book covers the current advancements of carbon nanoallotropes in metal corrosion management, including the usage of nanostructure materials to produce high-performance corrosion inhibitors and corrosion-resistant coatings.

This book presents numerous uses of biosurfactants as potential alternatives to synthetic surfactants in food, textile, biomedical and therapeutic applications as well as in bioremediation and waste management. Divided into four parts, the book explores a wide range of biosurfactants as sustainable materials, starting with an overview of biosurfactants' production, in which readers will find topics such as characterization, purification, sustainable production, biodegradation, and cytotoxic aspects of biosurfactants. Part 2 presents the latest applications of biosurfactants in food and textile industries, as well as their application in nanoparticle synthesis, heavy metal remediation, drug absorption, waste treatment, agriculture management, marine sediment remediation of organic pollutants, emulsification and biofuel production, and as anti-corrosive agents. Part 3 traces current biomedical applications of biosurfactants, including their use as biocidal, wound healing, and anti-tumour agents. In this part, readers will also discover further applications of biosurfactants in oral cavity care, and biofilm prevention and disruption. The final part of the book discusses the main advantages and disadvantages of biosurfactants over synthetic surfactants, the current challenges in biosurfactant research, and prospects for their commercialization. This book will be a valuable resource for students, scholars and researchers working in the fields of colloidal and interface science, chemistry and chemical engineering. Professionals and scholars alike will appreciate the latest research findings that it presents.

1. Discusses carbon allotropes based nanostructured as corrosion-resistant coatings materials 2. Reviews use of nanostructure materials based corrosion-resistant coatings as revolutionized modern industrial practices 3. Focuses on most advanced nanostructure materials - corrosion-resistant coatings materials 4. Explores nanostructure materials as corrosion-resistant coatings materials 5. Evaluates carbon allotropes as nanostructure materials-based, corrosion-resistant coatings as options for sustainable and transformational opportunities

GRAFTED BIOPOLYMERS AS CORROSION INHIBITORS Comprehensive resource explaining the synthesis, characterization, and anticorrosive applications of green and environmentally benign grafted biopolymers and their derivatives Grafted Biopolymers as Corrosion Inhibitors highlight research and technology on sustainable grafted biopolymers as corrosion inhibitors and detail their rapidly emerging features and future research prospects. The many forms of grafted biopolymers and techniques for preventing corrosion are explored in relation to their macromolecular weights, chemical makeup, and distinctive molecular and electronic structures. The book covers state-of-the-art corrosion science and engineering as well as an in-depth, step-by-step exposition of knowledge on numerous corrosion systems and their role in contemporary industry. Each chapter include an introduction, isolation and purification, synthesis methods, worked examples, current applications, and future predictions. Edited and contributed to by well-known researchers, scientists and experts from academia and industry, Grafted Biopolymers as Corrosion Inhibitors includes information on: Basics of corrosion, economic adverse effects and its mitigation, and past and present developments and future directions of corrosion inhibition Corrosion inhibitor classification and selection criteria, chemical, electrochemical, and surface characterization, and computational techniques for corrosion monitoring Sustainable grafted biopolymers, covering synthesis and characterizations, properties and applications, and factors affecting biopolymers grafting Grafted natural exudates gums, pectin, chitosan, starch, cellulose, alginates, dextrin, and biopolymer composites and nanocomposites as sustainable corrosion inhibitors Delivering the recent advancements in sustainable grafted biopolymer for the anticorrosive applications arena, Grafted Biopolymers as Corrosion Inhibitors is an essential resource for scholars in academia and industry, working corrosion engineers, and materials science, engineering, and chemistry students.

Inorganic Anticorrosive Materials (IAMs): Past, Present, and Future Perspectives covers the anticorrosive effects ofinorganic materials and metaloxides in particular. The bookpresentsthelatestdevelopmentsin corrosion inhibition anddiscussesfuture opportunities.Italso addressesthe fundamental characteristics, synthesis, inhibition mechanisms,and applications ofmetal oxides ascorrosion inhibitors in industryand provides a chronological overview of the growth of the field.The book concludes with discussions about commercialization and economics. This book is an indispensable reference for scholars, chemical engineers, chemists, and materials scientists working in research and development and in academia who require comprehensive knowledge of corrosion-inhibition mechanisms.

Environmentally Sustainable Corrosion Inhibitors: Fundamentals and Industrial Applications covers the latest research developments in environmentally friendly, sustainable corrosion inhibitors. The book addresses the fundamental characteristics, synthesis, characterization and mechanisms of corrosion inhibitors. In addition, it presents a chronological overview of the growth of the field, with numerous examples of its broad-ranging industrial applications in a.o. food, the environment, electronics, and the oil and gas industries. The book concludes with discussions about commercialization and economics. This is an indispensable reference for chemical engineers and chemists working in R&D and academia who want to learn more about environmentally-friendly, sustainable corrosion inhibitors systems.

Metal-chalcogenides have exceptional properties and can be used for electronic devices, environmental monitoring, and sensing applications, for energy storage, as electrode materials, in fuel cells, membranes and for photocatalytic degradation of environmental pollutants in the field of waste-water treatment applications. Metal-Chalcogenide Nanocomposites: Fundamentals, Properties, and Industrial Applications focuses on metal chalcogenide nanomaterials for environmental remediation and corrosion applications. The chapters focuses on cost-effective and facile fabrication approaches, their growth mechanisms, optical, electrical, and other important properties and their applications in a broad range of diverse fields such as photocatalysis, photovoltaics, hydrogen production, lithium batteries, energy storage, anticorrosion, and sensor devices. The book will be an important information source for both material scientists and engineers who want to create the next generation of products and devices for energy and environmental applications.

Computational Modeling and Simulations for Designing of Corrosion Inhibitors: Fundamentals and Realistic Applications offers a collection of major advancements in the field of computational modeling for the design and testing of corrosion inhibition effectiveness of organic corrosion inhibitors. This guide presents the latest developments in molecular modeling of organic compounds using computational software, which has emerged as a powerful approach for theoretical determination of corrosion inhibition potentials of organic compounds. The book covers common techniques involved in theoretical studies of corrosion inhibition potentials, and mechanisms such as density functional theory, molecular dynamics, Monte Carlo simulations, artificial neural networks, and quantitative structure-activity relationship.

Electrochemical and Analytical Techniques for Sustainable Corrosion Monitoring presents established research and technology for corrosion monitoring and measurements. Corrosion reduction can be controlled via various ways, including process control, cathodic protection, metal impurity reduction, application of surface treatment methods, and incorporation of appropriate alloys. This is the first book that collectively describes corrosion inhibition measurements using chemical, electrochemical, and analytical methods. The book presents state-of-the art techniques for corrosion monitoring by providing detailed studies and testing methods. It also covers the most advanced, industry-oriented challenges for sustainable corrosion monitoring and measurements. The book is a valuable resource for scholars in academia, materials science and applied engineering and chemistry students, and corrosion engineers.

Nanocomposites-Advanced Materials for Energy and Environmental Aspects provides a brief introduction to metal oxides. The book then discusses novel fabrication methodologies and eco-friendly methods for using a broad range of metal oxide-based nanocomposites in innovative ways. Key aspects include fundamental characteristics of environmentally sustainable fabrication of materials for solar power, power generation and the textiles industries. Commercialization and economic aspects that are currently of major significance are also discussed in detail. The book represents an important information resource for material scientists and engineers to create the next generation of products and devices for energy and environmental applications. Metal and metal oxide-based nanocomposites are at the heart of some of the most exciting developments in the field of energy and environmental research. They have exceptional properties and are utilized in electronic and environmental sensing devices, for energy storage, electrode materials, fuel cells, membranes, and more.