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"This reference of contributed chapters seeks to address not only how nanomaterials are created, used, or characterized, but also to apply this knowledge to the multidimensional industries, fields, and applications of nanomaterials and nanoscience by including topics such as both natural and manmade nanomaterials; the size, shape, reactivity, and other essential characteristics of nanomaterials; challenges and potential effects of using nanomaterials; and the advantages of nanomaterials with multidisciplinary uses"--
The use of nanotechnologies continues to grow, as nanomaterials have proven their versatility and use in many different fields and industries within the scientific profession. Using nanotechnology, materials can be made lighter, more durable, more reactive, and more efficient leading nanoscale materials to enhance many everyday products and processes. With many different sizes, shapes, and internal structures, the applications are endless. These uses range from pharmaceutics to materials such as cement or cloth, electronics, environmental sustainability, and more. Therefore, there has been a recent surge of research focused on the synthesis and characterizations of these nanomaterials to better understand how they can be used, their applications, and the many different types. The Research Anthology on Synthesis, Characterization, and Applications of Nanomaterials seeks to address not only how nanomaterials are created, used, or characterized, but also to apply this knowledge to the multidimensional industries, fields, and applications of nanomaterials and nanoscience. This includes topics such as both natural and manmade nanomaterials; the size, shape, reactivity, and other essential characteristics of nanomaterials; challenges and potential effects of using nanomaterials; and the advantages of nanomaterials with multidisciplinary uses. This book is ideally designed for researchers, engineers, practitioners, industrialists, educators, strategists, policymakers, scientists, and students working in fields that include materials engineering, engineering science, nanotechnology, biotechnology, microbiology, drug design and delivery, medicine, and more.
The book presents recent advances in the field of nanoenzymes and the immobilization of enzymes in nanomaterials. Applications include disease diagnosis, environmental clean-up, biosensor manufacturing, drug delivery and vaccine production. Keywords: Nanoenzymes, Metal and Metal Oxide Nanoparticles, Carbon Nanotubes, Graphene, Activated Carbon, Enzyme Immobilization, Catalytic Activity, Leaching of the Enzyme, Enzyme Mimicking, Biosensors, Biosensing Mechanisms, Therapeutic Applications, Vассine Prоduсtiоn аnd Immunizаtiоn. Drug Delivery, Delivery of Vaccine Antigens, Antigen Resistance, Immunogenicity, Disease Diagnosis.
Nanopesticides, Nanoherbicides, and Nanofertilizers: Formulations and Applications demonstrates the potential for nanomaterials to revolutionize modern agriculture to become more sustainable. A team of expert scientists explain how the nanoformulation of traditionally used herbicides, fertilizers, and pesticides can protect large-scale crops from unwanted weeds and pests as well as from the environmental side effects that are caused by the bulk application of chemicals. This book demonstrates how nanomaterials, such as hydroxyapatite, clay minerals, zeolites, and polyacrylic acid, have been successfully used to develop fertilizers that promote a slower release of chemicals due to the unique properties of nanomaterials. Their use in lower concentrations helps in decreasing the toxicity to non-targeted organisms as well as lowering the risk of environmental degradation. FEATURES: • Categorically discusses the formulations and applications of nanopestides, nanoherbicides, and nanofertilizers, as well as their impact on the environment. • Presents chapters on patent landscape, environmental acceptability, and environmental risks. • Addresses degradation of nanoparticles as well expected toxicity and drawbacks of nanomaterial-based pesticides, herbicides, and fertilizers. This book is essential reading for researchers and professionals working in the fields of biotechnology, nanomaterials and agricultural chemistry. Dr. Anjali Gupta is Professor and Researcher in the Division of Chemistry, Galgotias University, Uttar Pradesh, India. Dr. Divya Bajpai Tripathy is Professor and Researcher in the Division of Forensic Science, Galgotias University, Uttar Pradesh, India. Dr. Gaurav Kumar is Associate Professor in Clinical Research Division and Institution's Innovation Council In-Charge at Galgotias University, Uttar Pradesh, India. Dr. Pooja Agarwal is Professor in the Division of Chemistry, Galgotias University, Uttar Pradesh, India. Dr. Anujit Ghosal is Researcher at the Richardson Centre for Food Technology and Research, Department of Food and Human Nutritional Sciences, The University of Manitoba, Canada.
Among the most novel and ever-growing approaches to improving the food industry is nanobiotechnology. In this book, the prospective role of nanobiotechnology in food which includes quality control and safety through nanosensors and biosensors, targeted delivery of nutrients, controlled release of nutrients, proteins, antioxidants, and flavors through encapsulation and enzymatic reactions for food fortification of fat-soluble compounds is discussed. Along the chapters of this book, nanobiotechnological techniques are addressed in detail with specific emphasis on food science applications. Features: Discusses nanobiotechnology in food for quality control and safety Covers food processing and packaging for food safety Explores the positive role of nanomaterials towards the sustainability of food Provides efficient, real, and sustainable solutions to pertinent global problems Includes case studies and research directions of the nanobiotechnology This book is aimed at researchers and graduate students in nanotechnology and food engineering.
Carbon-based materials have emerged as versatile and effective solutions in environmental remediation. These materials possess exceptional adsorption properties that enable them to capture and remove a wide range of pollutants from air and water. Their high surface area, porosity, and stability make them ideal for tackling contaminants such as heavy metals, organic compounds, and pesticides. By leveraging these unique properties, carbon-based materials play a crucial role in mitigating environmental pollution and promoting sustainable practices. Carbon-Based Materials and Environmental Remediation: Graphene, Biochar, and More explores the applications of carbon-based materials such as graphene, biochar, and more for environmental remediation. This book delves into the unique properties and mechanisms that make these materials effective in addressing various environmental challenges. Covering topics such as carbon nanomaterials, pesticide remediation, and water pollution control, this book is an essential resource for environmental scientists, chemical engineers, materials scientists, academic researchers, graduate and postgraduate students, and more.