Circularity of Plastics: Sustainability, Emerging Materials, and Valorization of Waste Plastic takes an innovative, interdisciplinary approach to circularity and sustainability in plastics, with an emphasis on plastic waste and end-of-life treatment and options for recycling, re-use, valorization and development of biomass-based polymers. The book introduces key concepts of sustainable materials, the circular economy, and lifecycle assessment, and discusses challenges in the valorization of waste. Other sections cover the upcycling of waste plastic into new materials and fuels, with dedicated chapters exploring state-of-the-art techniques for conversion to new sustainable polymers, fuel, fine chemicals and carbon nanomaterials. Emerging technologies used to produce functional polymers from renewable feedstocks, including CO2, biomass, natural polymers, polylactic acid (PLA), and polyhydroxyalkanoate-based materials (PHAs) are then explored, with a final chapter focusing on applications of sustainable materials, challenges, and future perspectives. This is a valuable resource for researchers, scientists, engineers, R&D professionals, and advanced students from a range of disciplines and backgrounds, with an interest in sustainable materials, circularity in plastics, and polymer waste and valorization.

Advances in Eco-friendly and Sustainable Technologies for the Treatment of Textile Wastewater delivers a comprehensive overview of the advancements in a variety of treatment approaches with a major emphasis on bioremediation for the removal and degradation of textile dyes. This book summarizes the latest advancements in textile dyes/effluent treatment technologies and evaluates the major physico-chemical and biological processes that are most popular among textile industrial wastewater treatment plants. The book examines recent advanced treatment options, including photocatalysis with the aid of nanotechnology, as well as advanced oxidation processes, with an emphasis on bioremediation methods.

Fabrication and Functionalization of Advanced Tubular Nanofibers and their Applications describes the synthesis, preparation and characterization of carbon-based tubular nanofibers and their applications in environmental protection and new energy sources. The book explores novel strategies for the preparation of carbon tubular nanofibers and explains how they have been used to great effect in a range of applications, including energy and healthcare. The processing-structure-property relationship in functional inorganic/organic materials is examined at the nano-level, explaining where interesting electronic, magnetic, optical, mechanical or catalytic and therapeutic properties are derived. Covering everything from the basics to their use in practice, including the synthetic procedure and characterization, this book is the perfect guide for anyone interested in the design of nanomaterials for advanced applications. Nanomaterial science is a relatively young and rapidly developing discipline that includes aspects of physics, chemistry and biology and is finding applications in some of mankind's greatest current challenges.

New and Future Developments in Microbial Biotechnology and Bioengineering: Trichoderma for Biotechnological Applications: Current Insights and Future Prospects includes the most recent advances in Trichoderma based research. The book emphasizes the use of modern biotechnological and molecular tools such as the identification of Trichoderma, the development of diagnostic markers, and genome mapping and next generation sequencing based approaches. Chapters discuss a variety of applications and illustrations, including the biology and biodiversity of Trichoderma, biotic and abiotic stresses, plant health, disease management, crop improvement, industrial and commercial products, and more. The book includes various applications, making it useful for biotechnologists, biochemical engineers, biochemists, plant breeders, soil microbiologist, agronomists and researchers interested in sustainable agriculture practices.

Databook of Surface Modification Additives, Second Edition contains data on ten groups of additives, including anti-scratch and mar-preventing additives, additives for surface tension reduction and wetting, hydrophobization additives, gloss enhancement and surface matting additives, additives for the formation of tack-free surface and tackifiers, and stain inhibiting additives. The information on each is divided into five sections, including General Information, Physical-Chemical Properties, Health and Safety, Ecological Properties, and Use and Performance. This data is provided for approximately 360 of the most important surface modification additives produced and used today. This databook will be an extremely useful resource for engineers, researchers and technicians interested in using additives to modify and improve the surface properties of materials.

Advances in Applied Microbiology, Volume 122 continues the comprehensive reach of this widely read and authoritative review source in microbiology. Users will find invaluable references and information on a variety of areas relating to the topic of microbiology. This release includes updates on BioMateriOME: to understand microbe-material interactions within sustainable, living architectures.

Advances in Agronomy, Volume 179, the latest release in this leading reference on agronomy, contains a variety of updates and highlights new advances in the field. Each chapter is written by an international board of authors.

Advances in Bioenergy, Volume Eight highlights new advances in the field with this new volume presenting interesting chapters on a variety of topics, including Chemical synthesis of platform chemical from lignocellulosic biomass for fuels and polymers application, Current technologies and applications of CO2 utilization into bio-products, Synthesis of Polyhydroxyalkanoates (PHA) from renewable resources, Biocomposite, Production and application of biochar, Conversion of biomass to functional materials, MSW characterization and preprocessing for biofuels and bioproducts, and Thermal chemical conversion of municipal solid waste to fuels and chemicals.

Handbook of Thermoplastic Fluoropolymers: Properties, Characteristics and Data gathers key technical information about structure, characteristics, properties and processing methods of commercial thermoplastic fluoropolymers in one easy reference. Thermoplastic fluoropolymers have many desirable functional characteristics, such as high thermal stability, reliability at high mechanical loads, a wide range of operating temperatures, and high chemical and radiation stability. These characteristics make them crucial in many specialist applications, including in the military, biopharmaceuticals and environmental protection. This uniquely comprehensive guide to this versatile family of polymers will help processors, fabricators and end-users find new and innovative solutions. Detailed coverage of technical details of processing methods, characteristics, and chemical properties of commercial thermoplastic fluoropolymers all in one place make this the most authoritative reference to the subject available.

Robotics for Cell Manipulation and Characterization provides fundamental principles underpinning robotic cell manipulation and characterization, state-of-the-art technical advances in micro/nano robotics, new discoveries of cell biology enabled by robotic systems, and their applications in clinical diagnosis and treatment. This book covers several areas, including robotics, control, computer vision, biomedical engineering and life sciences using understandable figures and tables to enhance readers' comprehension and pinpoint challenges and opportunities for biological and biomedical research.

Processing Technologies and Food Protein Digestion covers the effect of all the applied and emerging processing technologies, both thermal and non-thermal, on the digestion of food proteins derived from egg, milk, meat, plants, cereals, fish and seafood. Written by experts from a multidisciplinary perspective, each chapter addresses the effects of processing technologies, particularly emerging technologies such as pulsed electric field, ultrasound, high-pressure, pulsed light, and ohmic heating on the digestion of food proteins. This remarkable reference is the first compilation of available literature in the protein digestibility area.

Berry Bioactive Compound By-Products explores the phytochemistry, functional properties, health-promoting effects, and food and non-food applications of bioactive compounds in berry processing by-products. The book covers a range of berry processing by-products, including mulberry, raspberry, blueberry, and many more. The book examines the chemical composition, bioactive compounds, green methods for extraction, metabolism and bioactivity of bioactive components, biorefinery, bioenergy, and zero waste processing, and economic values for each berry's by-products. Edited by world experts, this book is a valuable resource for food scientists, researchers, and students in the fields of functional foods and food science, technology, and bioprocess engineering.

Protein-based Nanocomposites for Tissue Engineering details the design, development, efficacy and tissue engineering applications of a range of protein-based nanocomposite materials. Protein-based nanocomposites offer advantageous properties in that they are biodegradable, biocompatible, nonantigenic, highly stable and possess strong binding capacity. These unique properties make protein-based nanocomposite carriers promising candidates for controlled cell delivery in tissue engineering. This book covers a selection of protein types in their nanocomposite form, from albumin and keratin to collagen and silk. Each protein nanocomposite is described in detail, exploring their application in cell delivery and tissue engineering. The design, development, properties and molecular mechanism of protein-based nanocomposites is thoroughly discussed before going on to analyze the advantages and limitations of these useful materials, making this book an ideal resource for readers who want to explore biocompatible and naturally derived material options for tissue engineering applications. Academics and researchers in the fields of materials science, biomedical engineering, regenerative medicine and nanotechnology will find the book a must have.

Crises in Oil, Gas and Petrochemical Industries: Disasters and Environmental Challenges provides an overview of both natural and manmade disasters occurring in oil, gas and petrochemical industries while also covering special solutions based on their types. This volume includes the effects of natural disasters such as earthquakes, floods and hurricanes as well as manmade incidents including fire events, explosions and the release of dust and toxic substances on various related units and plants. In addition, the long-term side effects on both humans and the environment resulted from these industries are presented. Problems such as releasing wastes and venting gases into the environment and challenges from overusing the natural resources and producing noise pollutants are also discussed in detail.

Ferrite Nanostructured Magnetic Materials: Technologies and Applications provides detailed descriptions of the physical properties of ferrite nanoparticles and thin films. Synthesis methods and their applications in numerous fields are also included. And, since characterization methods play an important role in investigating the materials’ phenomena, various characterization tools applied to ferrite materials are also discussed. To meet the requirements of next-generation characterization tools in the field of ferrite research, synchrotron radiation-based spectroscopic and imaging tools are thoroughly explored. Finally, the book discusses current and emerging applications of ferrite nanostructured materials in industry, health, catalytic and environmental fields, making this comprehensive resource suitable for researchers and practitioners in the disciplines of materials science and engineering, chemistry and physics.

Biopolymers: Synthesis, Properties, and Emerging Applications presents the state-of-the-art in biopolymers, bringing together detailed information on synthesis strategies, processing and cutting-edge applications. The book begins by introducing the synthesis, processing and structural and functional properties of smart biopolymers and bionanocomposites. Subsequent chapters focus on the synthesis and preparation of biopolymers with valuable properties or for specific advanced applications, including piezoelectric properties, shape memory properties, biodegradable polymer blends, synthesis and assembly of nanomaterials, synthesis of green biopolymers, and catalytic synthesis of bio-sourced polyesters and polycarbonate, as well as applications in active food packaging, water purification, biomedicine, 3D printing, and automotive. Throughout the book, there are analyses of different synthesis strategies and processing methods and their role and use in different fields of application, whilst the important challenges relating to scalable processing and shaping and micro and nano structuration are also discussed. The book also strives to balance the synthetic aspects of biopolymers with physical principles, highlighting biopolymer-based architectures including composite or hybrid conjugates, providing in-depth discussion of important examples of reaction mechanisms, and exploring potential applications of biopolymer and conjugates, ranging from physical to chemical and biological systems.

Plant Small RNA for Food Crops provides foundational insights into the role of small RNA in food crops in varying environmental conditions and how it can help in developing molecular frameworks to support agricultural sustainability to feed the world's population. Small RNA populations have been widely identified in various plants and have been reported to be involved in regulating the molecular functioning of plants and their responses for biotic and abiotic environmental factors. Until now, however, a detailed compilation of role of small RNAs in food crops growth, yield and environmental responses had been unavailable. This book provides a detailed description of role of various small RNAs whose utilization in a range of food crops may serve to improve sustainability, productivity, and maintenance during environmental stress conditions. It brings together the reported small RNAs along with their applications specific to food crops, but also covers recent studies, innovations and future perspectives.

Nanotechnology for Advanced Biofuels: Fundamentals and Applications highlights emerging techniques for the formulation of fuels using nanotechnology and bio-based concepts. The addition of high-energy nanoparticles and biologically derived molecules in liquid fuel can increase the potential of energy-rich compounds. Key challenges in the production of nanotechnology-based fuels and their combustion or ignition during the operation are covered, along with the emission of oxidized particles and by-products of incomplete combustion and nano-fuels as an emerging field. The bio-based energy-rich fuels are largely diffused in conventionally used fuels. The addition of biofuels and nano-additives to pre-existing fuels can offer opportunities for developing modified fuels in domestic industries with the maximum usage of renewable biomass. This is an important reference source for materials scientists, energy scientists and chemical engineers who want to understand more about how nanotechnology can help create more efficient biofuels.

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.

Processing of Food Products and Wastes with High Voltage Electrical Discharges presents basic knowledge on HVED technology, focusing on the mechanisms, related phenomena and effects, equipment design, methods and examples of application. Divided in three parts, the book covers the advantages and restrictions of HVED technology for the treatment of numerous specific food products, by-products and wastes, such as grape, oilseed, citrus by-products and wastes, lignocellulosic and algal biomass, meat and bacterias. This book act as a comprehensive resource for researchers to be able to use the data for the dimensioning of HVED and processing equipment and finding the optimal treatment parameters.

Fundamentals of Risk Management for Process Industry Engineers outlines foundational principles of human-centered, sociotechnical risk management, and how they can be applied to deliver real improvements in risk identification, understanding, analysis, control, communication, and governance. To maximize sustainable competitiveness requires the identification and optimization of the range of risks that can impact a business. Hence, understanding the foundational principles of sociotechnical risk management is required to design and execute effective risk identification, optimization, and management strategies.