Nanotechnology Interventions in Food Packaging and Shelf Life


Book Description

Nanotechnology has revolutionized agriculture and food technology, improving the shelf life of foods through interventions of nanomaterials in the packaging. Smart materials, biosensors, nanobiosenors, packaging materials, nanocarbon dots, and nanodevices address aspects of the food industry, such as food safety, food security, and packaging and shelf life. Nanotechnology Interventions in Food Packaging and Shelf Life shows how nanotechnology has the potential to transform food packaging materials in the future. Nanotechnology applied to food packaging can increase the shelf life of foods, minimize spoilage, ensure food safety, and repair damaged packaging. Key Features Sheds light on benefits of nanotechnology in the food packaging industry Contains information on utilization of nanocellulose and nanofibrils in food packaging Provides an overview of nanosensor applications for shelf-life extension of different food materials This book presents a comprehensive review of new innovations in nanotechnology, packaging, preservation, and processing of food and food products. It serves as a useful tool for food engineers and technologists in the food packaging industry.




Nanotechnology-Enhanced Food Packaging


Book Description

Nanotechnology-Enhanced Food Packaging Timely overview of functional food packaging made with nanotechnology and nanomaterials In Nanotechnology-Enhanced Food Packaging, a distinguished group of researchers delivers a comprehensive and insightful introduction to the application of nanomaterials in food packaging. This edited volume covers recent innovations—as well as future perspectives—in the industry and offers a complete overview of different types of nanomaterials used in food packaging. The book also discusses the use of nanoparticles in the development of active and functional food packaging and the related environmental and toxicological aspects. Featuring one-of-a-kind contributions from leaders in the field, Nanotechnology-Enhanced Food Packaging provides real-world solutions to food packaging challenges and considers the legislative and economic implications of new technologies. Among the new developments in nanotechnology-enhanced food packaging covered by the book are: Thorough introduction to biopolymers in food packaging systems and nanostructures based on starch, their preparation, processing, and applications in packaging Comprehensive explorations of chitosan-based nanoparticles and their applications in the food industry Practical discussions of active packaging systems based on metal oxide nanoparticles and an overview of higher barrier packaging using nano-additives In-depth examinations of the characterization techniques for nanostructures in food packaging Perfect for materials scientists, food technologists, and polymer chemists, Nanotechnology-Enhanced Food Packaging also belongs on the bookshelves of plastics technologists and allied professionals in the food industry.







Smart Food Packaging Systems


Book Description

Understand the future of food packaging with this timely guide Food packaging is a vital part of the food industry. It contributes to food safety and quality throughout the supply chain, reduced product loss, allows high-quality goods to be shipped safely to underserved regions, and more. Smart food packaging systems, which can sense or detect changes in the product or packaging, are at the forefront of this field, and show potentially revolutionary promise. Smart Food Packaging Systems offer a comprehensive overview of the fundamental principles and practical applications of Active food packaging and Intelligent food packaging systems. The book incorporates the latest research developments and technologies in active and intelligent packaging systems that supplement food supply lines worldwide. It is a must-own for researchers and industry professionals looking to understand this key new tool in the fight against world hunger. Smart Food Packaging Systems readers will also find: Case studies on life cycle assessments of specific smart packaging systems Detailed discussion of topics including additives, antimicrobial and other functional agents, and biopolymers in active food packaging Use of sensors and indicators to monitor quality, temperature, and freshness of the packaged food Smart Food Packaging Systems is ideal for professionals, researchers, and academics in food science, food technology, and food packaging, as well as manufacturers, developers, government officials, and regulators working on supply chain and food distribution aspects.




Sustainable Postharvest Technologies for Fruits and Vegetables


Book Description

Fruits and vegetables, commonly termed as "fresh produce" are an important component of the human diet, as these provide various beneficial and essential health-related compounds. Nevertheless, fresh produce is susceptible to postharvest deterioration and decay along with loss of certain nutrients due to innapropriate storage conditions and lack of standard postharvest technologies. In addition, the short shelf life is considered another major constraint that must be extended after harvest to ensure a wider availability window of the fresh produce for consumers. From this perspective, the use of postharvest approaches is considered imperative to reduce the deterioration of harvested fresh produce in order to extend their storage and shelf life potential on a sustainable basis. Sustainable Postharvest Technologies for Fruits and Vegetables covers various aspects of postharvest technologies with major developments over the recent past and provides a way forward for the future. The sustainable use of various technologies and elicitors could be adapted from farm to fork in order to conserve the eating quality of fresh produce. Therefore, this book covers various sustainable postharvest treatments and technologies that could be considered highly effective for the delay of postharvest senescence and deterioration. Among the various technologies, the use of preharvest treatments, controlled atmosphere, dynamic control atmosphere, modified atmosphere and hypobaric conditions has tremendous potential for the fresh fruits and vegetables industry. In the same way, cold plasma, pulsed light, ultraviolet light, ultrasound technology, nanoemulsions, nano-packaging, electrolyzed water, high pressure processing, ozone gas, irradiations, edible coatings, vacuum packaging and active packaging with slow releasing compounds along with nanotechnology are highly practicable and possesses tremendous potential to be used in the maintenance of overall eating quality and storage life extension of the fresh produce. Key Features: Overviews the major factors affecting postharvest physiology and shelf life potential of fresh produce. Focuses on major sustainable technologies having the potential to maintain postharvest quality and extend shelf life of fruits and vegetables. Describes practical and recent advances of various approaches indispensable for the maintenance of overall eating quality and food safety attainment for fresh produce on a sustainable basis. Covers how quality maintenance and shelf life rely on preharvest practices, nonthermal treatments, storage atmospheres, packaging materials, active packaging, edible packaging, coating application techniques, nanotechnology and ecofriendly plant extracts and natural antagonists.




Plant Essential Oils


Book Description

This book is a comprehensive collection of information on essential oils and their industrial application. It provides reader with a systematic and advanced knowledge of the role of essential oils as natural preservatives and therapeutic agents. Food and pharmaceuticals are two important pillars of human civilization. Plant essential oils and their volatile compounds have been used for preservation as well as for the treatment of human illness for long as traditional practices in biodiversity-rich countries. This book deals with the potential uses of essential oils against insect pests and spoilage microbes of agri-food commodities such as pulses, cereal, fruits, and their shelved products. It also highlights the molecular-assisted engineering of plant essential oils, the pharma-kinetic facet, and their potential in pharmaceutical and aromatherapy. In addition, the book covers recent advances in science and technology such as extraction methods, metabolomics, phytochemical genomics, bioinformatics, conformational dynamics, mathematical modeling, and nanotechnology application. This book is of interest to teachers, researchers, food scientists, capacity builders, and policymakers. Also, it serves as an additional reading material for undergraduate and postgraduate students of agriculture, food, and pharmaceutical sciences.




Antimicrobial Food Packaging


Book Description

Antimicrobial Food Packaging takes an interdisciplinary approach to provide a complete and robust understanding of packaging from some of the most well-known international experts. This practical reference provides basic information and practical applications for the potential uses of various films in food packaging, describes the different types of microbial targets (fungal, bacteria, etc.), and focuses on the applicability of techniques to industry. Tactics on the monitoring of microbial activity that use antimicrobial packaging detection of food borne pathogens, the use of biosensors, and testing antimicrobial susceptibility are also included, along with food safety and good manufacturing practices. The book aims to curtail the development of microbiological contamination of food through anti-microbial packaging to improve the safety in the food supply chain. - Presents the science behind anti-microbial packaging and films reflecting advancements in chemistry, microbiology, and food science - Includes the most up-to-date information on regulatory aspects, consumer acceptance, research trends, cost analysis, risk analysis and quality control - Discusses the uses of natural and unnatural compounds for food safety and defense




Sustainable Agricultural Practices


Book Description

The need for sustainable advancement in agriculture practices continues to press. Achieving optimum yields of crops has traditionally meant farmers continuously using large amounts of chemical fertilizers or pesticides but the indiscriminate use of these pesticides has adversely affected the environment, non- target microorganisms, soil textures and human health. Sustainable Agricultural Practices, a volume in the Plant and Soil Microbiome series, presents foundational information into the successful utilization of different biocontrol agents (especially bacteria and fungi actinomycetes) under field conditions which can help relieve the pressure of overexploitation of synthetic pesticides in agriculture. As many of the microorganisms including nitrogen fixing bacteria and cyanobacteria can be used as bio inoculants, they offer opportunities to not only to enhance the crop productivity but also for maintaining the natural properties of agricultural soils. The volume explores the multifaceted benefits derived from varieties of microorganisms existing in different components of ecosystem, many of which could potentially be employed as probiotics for improved human and livestock health. Researchers seeking to expand their understanding of related fields, and students seeking foundational concept coverage will find this volume valuable. - Includes summaries, case studies, and applications to provide real-world insights - Provides accessible, informative illustrations of current trends in microbial biotechnology - Presents data through tables and figures for effective communication - Suggests future research avenues in the field of microbial biotechnology for sustainable development




Microplastics in the Ecosphere


Book Description

Microplastics in the Ecosphere Discover the environmental impact of microplastics with this comprehensive resource Microplastics are the minute quantities of plastic that result from industrial processes, household release and the breakdown of larger plastic items. Widespread reliance on plastic goods and, particularly, single-use plastics, which has been increased by the COVID-19 pandemic, has made microplastics ubiquitous; they can be found throughout the ecosphere, including in the bloodstreams of humans and other animals. As these plastics emerge as a potential threat to the environment and to public health, it has never been more critical to understand their distribution and environmental impact. Microplastics in the Ecosphere aims to cultivate that understanding with a comprehensive overview of microplastics in terrestrial ecosystems. It analyzes microplastic distribution in aerosphere, hydrosphere, and soil, tracing these plastics from their production on land to their distribution—overwhelmingly—in maritime ecosystems. The result is a book that will inform researchers and policymakers as we look to tackle this emerging challenge globally. Microplastics in the Ecosphere readers will also find: Introductory information about the production and distribution of single-use plastics An emphasis on management and mitigation strategies designed to reduce contamination over time A multidisciplinary approach, combining concepts and analytical techniques from a range of scientific fields Microplastics in the Ecosphere is a valuable guide for researchers and scientists, advanced undergraduate and graduate students, industry professionals, and policymakers looking to understand the impact of these widespread materials.




Synthesis of Bionanomaterials for Biomedical Applications


Book Description

Synthesis of Bionanomaterials for Biomedical Applications summarizes a range of procedures, including green synthesis of metal nanoparticles, metal oxide nanoparticles, and other types of nanoparticles while also exploring the appropriate use of these nanoparticles in various therapeutic applications such as anticancer, antibacterial, antifungal, drug delivery, and more. The book provides important information for materials scientists and pharmaceutical scientists on the synthesis of various nanoparticles using a variety of eco-friendly bionanomaterials. As concern has arisen regarding the environmental impact caused by some of nanomaterials, as well as their possible toxicity to cells, this book presents information on a new generation of eco-friendly materials. In addition, the green synthesis of nanoparticles shows how environmentally-friendly nanoparticles can be synthesized from different biological sources, such as microbes, fungi, algae and plants. - Provides information on the synthesis and application of eco-friendly bionanomaterials - Offers coverage of nanomaterials generated through green synthesis - Assesses the challenges of manufacturing eco-friendly nanomaterials on an industrial scale