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Applications of Next Generation Biosurfactants in the Food Sector provides detailed information on the sustainable approach to the utilization of biosurfactants as a next-generational green biotechnology to mitigate various problems encountered in the food industry. These biosurfactants help to reduce risks such as food spoilage, food poisoning, and post-harvest losses of fruits, vegetable, grains, tubers, cereals and pulses. This book will benefit academics, R&D professionals, and postgrad students in the food science and related fields as they explore recent trends in the application of these green biosurfactants and the many uses they can provide. - Provides examples of mathematical modeling, metabolomics, bioinformatics, metabolic engineering, systems biology, and computer technology for solving real-life food challenges using biosurfactants - Presents biosurfactants as an innovative, green, biotechnological solution to resolving food safety issues and improving human health - Includes applications of biosurfactants for the prevention of mycotoxins and as a biodegradable material with a wide variety of uses
Next-Generation Antimicrobial Nanocoatings for Medical Devices and Implants provides a detailed, up-to-date overview of nano-based antimicrobial coatings used to combat medical device-related biofilms. An introduction to biofilms and how they infect medical devices is included, as well as strategies/modification techniques used to target these biofilms. This book evaluates the various antimicrobial coatings formed using nanomaterials such as silver, inorganic materials, organic materials, carbon dots, surfactants, and electrospun fibers, specifically for us on medical devices and implants. Numerous coating methods are discussed along with the biological characterizations of these coating materials, and their toxicological and environmental impact.Next-generation Antimicrobial Nanocoatings for Medical Devices and Implants is a useful reference for materials scientists, biomedical engineers, and those working on the development of novel biomaterials for use in medical devices and implants. - Provides a range of nanomaterials for use in antimicrobial coatings, including electrospun fibers, surfactants, carbon quantum dots, and more - Details various modification approaches for targeting biofilms, as well as nanocoating characterization and methods for use on medical devices and implants - Assesses the environmental and toxicological impact of antimicrobial nanocoatings
Sustainable Food Systems from Agriculture to Industry: Improving Production and Processing addresses the principle that food supply needs of the present must be met without compromising the ability of future generations to meet their needs. Responding to sustainability goals requires maximum utilization of all raw materials produced and integration of activities throughout all production-to-consumption stages. This book covers production stage activities to reduce postharvest losses and increase use of by-products streams (waste), food manufacturing and beyond, presenting insights to ensure energy, water and other resources are used efficiently and environmental impacts are minimized. The book presents the latest research and advancements in efficient, cost-effective, and environmentally friendly food production and ways they can be implemented within the food industry. Filling the knowledge gap between understanding and applying these advancements, this team of expert authors from around the globe offer both academic and industry perspectives and a real-world view of the challenges and potential solutions that exist for feeding the world in the future. The book will guide industry professionals and researchers in ways to improve the efficiency and sustainability of food systems. - Addresses why food waste recovery improves sustainability of food systems, how these issues can be adapted by the food industry, and the role of policy making in ensuring sustainable food production - Describes in detail the latest understanding of food processing, food production and waste reduction issues - Includes emerging topics, such as sustainable organic food production and computer aided process engineering - Analyzes the potential and sustainability of already commercialized processes and products
Providing comprehensive discussions of the physical and chemical properties, manufacture, and industrial uses of biosurfactants, this reference offers first-hand accounts of biosurfactant research of leading biotechnology laboratories. It introduces promising possible uses of biosurfactants in medicine, in environmental control, and for marine organisms. In contributions of more than 30 leading international experts, the text reviews the biosynthetic mechanisms for surfactants and their precursor molecules; explicates the biophysics of microbial surfactants and examines the production of immobilized biocatalysts, lipopeptides, and rhamnolipids. It also presents information on the economics of biosurfactants.
Industrial Applications of Biosurfactants: Green Technology Avenues from Lab to Commercialization covers a variety of current biosurfactant research advancements and progresses providing insight into the most recent academic advances, major applications, and implementation studies from across the world. It focuses entirely within the scope of biochemistry and biotechnology research and demonstrates the application of biosurfactants in cell mobility, cell communication, nutrient acquisition, and plant and animal disease. Biosurfactants have antibacterial, antifungal, and antiviral properties, as well as adhesive properties and are used in vaccinations, gene therapy, and the enhancement of microbial biocontrol systems. Industrial Applications of Biosurfactants: Green Technology Avenues from Lab to Commercialization is designed for a broad audience working in the fields of biochemistry, surface science, colloid and interface science and is an invaluable reference for university libraries and industrial institutions, government and independent institutes, individual research groups, and scientists working in the field of surface science systems. Provides biosurfactants production and applications in modern industrial platforms Evaluates biosurfactants as prime options for sustainable and transformation opportunities Serves as a valuable reference for scientists and engineers who are searching for modern design for biosurfactants Focuses on the most advanced biosurfactants, industry-oriented applications including current challenges during manufacturing
Next Generation Nanochitosan: Applications in Animal Husbandry, Aquaculture and Food Conservation provides comprehensive and state-of-the-art-information on the application of nanochitosan for improving products, especially for the evaluation of biological active molecules, disease therapeutics, transport vehicle for DNA, targeted drug delivery, gene therapy, development of smart and high performance of fish, preservation of foods, tissue engineering, and improving the taste of aquatic and animal feeds as fish growth promoter. this book will be especially useful for industrial fisheries who deal with wild capture fishing and aquafarming and scientists and engineers working on post-capture processing stages. Details on the application of nanochitosan as an effective delivery of vaccines, hormones, vitamins, nutrients and antioxidants, biological active constituents and their wider application for the protection and management of farm animals and fishes against disease-causing pathogens are provided. - Provides applications for the protection and management of farmed animal and fish against disease-causing pathogens - Includes relevant information on recent patents, commercialized products and innovative technologies on nanochitosan with industrial perspectives - Presents potential solutions for the bioremediation of wastewater, heavy metal polluted soils and water, petroleum hydrocarbon on polluted environment, pesticides, polluted water and heavily contaminated soil
A timely and authoritative collection of resources on the sustainable production of biosurfactants In Biosurfactants and Sustainability, a team of distinguished researchers presents emerging themes in the rapidly evolving field of biosurfactants. The editors have chosen work that focuses on biosurfactants as eco-friendly and versatile compounds of interest in societies seeking sustainable forms of development. The book examines biosurfactants in the context of biorefineries and in the exploration of extremophilic microorganisms for biosurfactant production. The included works discuss biosurfactant production from different lignocellulosic and amylaceous raw materials, as well as oilseeds and other agro-industrial byproducts. Readers will also find: A thorough introduction to microorganisms producing biosurfactants, as well as sustainable biosurfactant production in biorefineries Comprehensive explorations of the challenges of biosurfactant production in fermentation processes Practical discussions of bioreactors and metabolic engineering used in biosurfactant production Fulsome treatments of biosurfactant production using enzyme and novel biosurfactant applications in nanotechnology, health, agriculture, and environmental cleanup Perfect for researchers and professionals with an interest in biosurfactant application and biotechnology processes, Biosurfactants and Sustainability will also benefit academic researchers, industry scientists, and engineers in biotechnology, microbiology, biomass conversion, environmental science and engineering.
Green Sustainable Process for Chemical and Environmental Engineering and Science: Microbially-Derived Biosurfactants for Improving Sustainability in Industry explores the role biosurfactants may play in providing more sustainable, environmentally benign, and economically efficient solutions for mitigating challenges experienced in the industrial sector. Sections cover an introduction to their production and review their application across a broad range of industry applications, from polymer and biofuel production to lubrification and corrosion protection. Drawing on the knowledge of its expert team of global contributors, the book provides useful insights for all those currently or potentially interested in developing or applying biosurfactants in their own work. As awareness and efforts to develop greener products and processes continue to grow in the chemistry community, biosurfactants are garnering much attention for the potential roles they can play, both in reducing the use and production of more toxic products and as tools for addressing existing problems. - Highlights effective bioprocessing techniques, bioprocessing, agrowaste, and factors affecting production - Reflects on differing strains of fungi, bacteria, actinomycetes and yeast, and reviews genetic modification of such strains for enhanced biosurfactant production - Explores the use of biosurfactants across a broad range of industrial applications
Microbially derived surfactants, called biosurfactants, provide a promising alternative to synthetic surfactants, displaying better availability and being generally nontoxic and biodegradable. Biosurfactants also have the advantage of diverse chemical properties and the potential to be less expensive. They demonstrate properties such as reducing surface tension, stabilizing emulsions, and promoting foaming. With many promising research results, a consolidated resource of biosurfactant knowledge is needed to build a framework for further development of applications. Biosurfactants: Research Trends and Applications fills this need, covering the latest research and development on relevant aspects of biological, biochemical, and physical processes and applications of biosurfactants. This book reviews current knowledge and the latest advances, strategies for improving production processes, and the status of biosynthetic and genetic regulation mechanisms for microbial surfactants. Chapters present research findings on specific biosurfactants, such as high surface activity rhamnolipids, yeast-derived sophorolipids, lipopeptides, and trehalose lipids that have potential for environmental, industrial, and medical uses. The book also describes sources and characteristics of marine microbial biosurfactants, biosurfactants made from food processing by-products and biosurfactants used in the food industry, and biosurfactants for green synthesis of nanoparticles. The text presents applications of biosurfactants in environmental industries and examines interactions between metals and various classes of biosurfactants and related metal remediation technologies. The final chapter reviews the state of the art of biosurfactants and their applications, and proposes approaches to overcome any challenges.
This book provides an overview of biosurfactants as biobased compounds, and highlights novel applications in several industries, including biotech, food processing, cosmetic, oil recovery/petroleum, pharmaceutical, detergent and textile. In the past few decades, biosurfactants have emerged as promising alternative surface-active agents to chemical surfactants due to their high biodegradability, low toxicity, multi-functionality under extreme pH and temperature conditions, long-term physicochemical stability, and their production from renewable sources. This book presents the fundamental aspects (classification, structure, genetics, and properties) of biosurfactants and how their features contribute to the global bioeconomy. Chapters from expert contributors discuss the latest screening, purification and characterization methods of new biosurfactants and biosurfactant-producing fungi and bacteria, including extremophiles. Particular attention is given to the role of biosurfactants in the formulation of sustainable agrochemicals, and their application as eco-friendly mosquitocidal agents, and biopesticides. Readers will discover a perspective on the antiviral activity of biosurfactants, in which the latest in vitro and in silico studies are discussed. Readers will also find more about the foremost therapeutic attributes of biosurfactant-mediated nanoparticles as next-generation drug delivery systems. Given its breadth, this book appeals to a wide readership, from students and academic researchers to scientists and professionals from industry, interested in the study and application of microbial surfactants.