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Nanomaterials represent a world of new possibilities and exciting opportunities. The problems facing mankind currently and those it will face in the future are and will be incredibly complex. As such, novel and innovative solutions to these problems will have to be explored. Problems centered, for example, in supplying enough energy or water in the future will have to be solved via sustainable solutions, as it is now clear that the continuation of current practices for an ever-increasing load will mean irreparable damage to the planet. The solutions to these challenges and others will have to be based on new approaches. These novel approaches will have their foundations in the development of new materials and protocols. The rise of nanotechnology over the last fifteen years or so now provides the opportunity for development of innovative and ground breaking approaches to society's pressing problems. This book provides a snapshot of the current development of new materials, ranging from nanoparticles to nanotubes to graphene to various hybrid materials and composites. These materials will without a doubt be the cornerstones of the novel approaches used to tackle mankind's most pressing problems in the 21st century. Specifically, this book explores the application of graphene in membranes, electrodes, biological applications and catalysis. There is also a basic exploration of nanocarbon chemistry. Biological interactions with nanomaterials are explored to develop bionics, sensors, medicines or imaging agents, and to detect and assess the materials' toxicity in various environments. Some fundamental work exploring nanostructures and transport properties is included and the use for such material as sensors, membranes or electrodes is discussed extensively.
Innovation in Nano-polysaccharides for Eco-sustainability: From Science to Industrial Applications presents fundamentals, advanced preparation methods, and novel applications for polysaccharide-based nanomaterials. Sections cover the fundamental aspects of polysaccharides and nano-polysaccharides, including their structure and properties, surface modification, processing and characterization. Key considerations are explained in detail, including the connection between the substituents of polysaccharides and their resulting physical properties, renewable resources, their sustainable utilization, and specific high value applications, such as pharmaceuticals, photocatalysts, energy, and wastewater treatment, and more. This is a valuable resource for researchers, scientists, and advanced students across bio-based polymers, nanomaterials, polymer chemistry, sustainable materials, biology, materials science and engineering, and chemical engineering. In industry, this book will support scientists, R&D, and engineers looking to utilize bio-based materials in advanced industrial applications. - Covers the fundamentals, mechanisms, preparation methods, unique properties and performance of nano-polysaccharide materials - Explores sustainable applications of nano-polysaccharides in areas such as pharmaceuticals, energy and wastewater treatment - Addresses key challenges, including the implementation of sustainable concepts in chemical design and paths to scalability and commercialization
Research on biomedical applications of nanomaterials has exhibited the rapidly evolving field of biomedical sciences by showing how effective they are in treatment. These particles hold considerable potential for biomedical applications. Work is ongoing, and the results suggest a possibility for a sustainable future for nanomaterials in both therapeutic and biomedical fields. This book highlights current and emerging applications, taking global research findings into consideration. We believe the focus on the identification and role of nanomaterial applications in therapeutic and biomedical sciences can lead to novel solutions in the fields. The chapters of this book are disseminated in a manner that can be readily adopted as sources for new and further study. The editors integrate advanced texts in their research that help graduate students, researchers and professors. Additionally, we believe that international readers will be able to make use of this book for reference purposes.
Handbook of Nanomaterials for Industrial Applications explores the use of novel nanomaterials in the industrial arena. The book covers nanomaterials and the techniques that can play vital roles in many industrial procedures, such as increasing sensitivity, magnifying precision and improving production limits. In addition, the book stresses that these approaches tend to provide green, sustainable solutions for industrial developments. Finally, the legal, economical and toxicity aspects of nanomaterials are covered in detail, making this is a comprehensive, important resource for anyone wanting to learn more about how nanomaterials are changing the way we create products in modern industry. - Demonstrates how cutting-edge developments in nanomaterials translate into real-world innovations in a range of industry sectors - Explores how using nanomaterials can help engineers to create innovative consumer products - Discusses the legal, economical and toxicity issues arising from the industrial applications of nanomaterials
As industries strive for greater efficiency and longevity in their metal infrastructure, corrosion remains a persistent and costly adversary. Traditional corrosion inhibitors often fail to provide long-term protection, leading to significant economic losses and environmental harm. Innovations in Nanomaterials-Based Corrosion Inhibitors delves into a thorough exploration of the rapidly evolving field of nanomaterials and their pivotal role in corrosion inhibition. This comprehensive guide offers a transformative solution utilizing the power of nanotechnology to combat corrosion with unparalleled effectiveness. Within the pages of this book lies a wealth of knowledge meticulously curated to address the pressing need for advanced corrosion inhibition strategies. From understanding the fundamental principles of corrosion to exploring the innovative applications of nanomaterials, it equips readers with the tools to revolutionize their approach to metal protection. With a precise analysis of the synthesis, characterization, and practical implementation of diverse nanomaterials, encompassing nanoparticles, nanocomposites, and nanostructured coatings, and a primary focus on safeguarding metal surfaces against corrosion, this book creates the much-needed reference for shaping the future of corrosion inhibitors. Innovations in Nanomaterials-Based Corrosion Inhibitors offers a roadmap to overcoming corrosion challenges and heralding a new era of sustainability and cost-effectiveness. By embracing nanotechnology, industries can enhance the durability of their metal infrastructure while minimizing environmental impact and maximizing economic efficiency.
Nanotechnology for Food Packaging: Materials, Processing Technologies, and Safety Issues showcases the latest research in the use of nanotechnology in food packaging, providing an in-depth and interdisciplinary overview of the field. Nanoscale advances in materials science, processing technology and analytical techniques have led to the introduction of new, cheaper and safer packaging techniques. Simultaneously, the increasing use of renewable nanomaterials has made food packaging more sustainable. Chapters provide a comprehensive review on materials used, their structure–function relationship, and new processing technologies for the application and production of nanotechnology-based packaging materials. In addition, the book discusses the use of functional materials for the development of active, smart and intelligent packaging, possible migration and toxicity of nanomaterials for foods and regulatory aspects, and commercial applications. - Provides detailed information on the use of nanomaterials and methodologies in food packaging, possible applications and regulatory barriers to commercialization - Presents an interdisciplinary approach that brings together materials science, bioscience, and the industrial and regulatory aspects of the creation and uses of food packaging - Helps those undertaking research and development in food packaging gain a cogent understanding on how nanotechnology is leading to the emergence of new packaging technologies
In the field of materials science, traditional materials often fall short in meeting the demands of contemporary industries, where multifunctionality, enhanced performance, and adaptability are pivotal. This unmet need highlights a compelling problem—a gap in materials that can truly revolutionize various sectors. As industries strive for advancements, a new challenge emerges: the scarcity of materials capable of performing multiple functions efficiently across domains. This predicament forms the backdrop against which Innovations and Applications of Hybrid Nanomaterials offers a comprehensive exploration of hybrid nanomaterials poised to bridge this critical gap. Innovations and Applications of Hybrid Nanomaterials addresses the urgent need for materials that transcend conventional boundaries, providing heightened performance, efficiency, and adaptability across diverse industries. The book dissects the design and development principles behind hybrid nanocomposites, unraveling the latest fabrication techniques and advanced characterization methods. Each chapter explores the profound impact of these materials in specific technological applications, ranging from electronics and energy to aerospace, biomedical engineering, and environmental sensing. Delve into a compendium of state-of-the-art methodologies enabling researchers to engineer materials with unparalleled precision, recognizing the transformative potential of multifunctional materials and unveiling their advantages, challenges, and future trajectories.
This volume focuses on the fundamentals and advancements in micro and nanomanufacturing technologies applied in the biomedical and biochemical domain. The contents of this volume provide comprehensive coverage of the physical principles of advanced manufacturing technologies and the know-how of their applications in the fabrication of biomedical devices and systems. The book begins by documenting the journey of miniaturization and micro-and nano-fabrication. It then delves into the fundamentals of various advanced technologies such as micro-wire moulding, 3D printing, lithography, imprinting, direct laser machining, and laser-induced plasma-assisted machining. It also covers laser-based technologies which are a promising option due to their flexibility, ease in control and application, high precision, and availability. These technologies can be employed to process several materials such as glass, polymers: polycarbonate, polydimethylsiloxane, polymethylmethacrylate, and metals such as stainless steel, which are commonly used in the fabrication of biomedical devices, such as microfluidic technology, optical and fiber-optic sensors, and electro-chemical bio-sensors. It also discusses advancements in various MEMS/NEMS based technologies and their applications in energy conversion and storage devices. The chapters are written by experts from the fields of micro- and nano-manufacturing, materials engineering, nano-biotechnology, and end-users such as clinicians, engineers, academicians of interdisciplinary background. This book will be a useful guide for academia and industry alike.
Nanoparticle technology, which handles the preparation, processing, application and characterisation of nanoparticles, is a new and revolutionary technology. It becomes the core of nanotechnology as an extension of the conventional Fine Particle / Powder Technology. Nanoparticle technology plays an important role in the implementation of nanotechnology in many engineering and industrial fields including electronic devices, advanced ceramics, new batteries, engineered catalysts, functional paint and ink, Drug Delivery System, biotechnology, etc.; and makes use of the unique properties of the nanoparticles which are completely different from those of the bulk materials.This new handbook is the first to explain complete aspects of nanoparticles with many application examples showing their advantages and advanced development. There are handbooks which briefly mention the nanosized particles or their related applications, but no handbook describing the complete aspects of nanoparticles has been published so far.The handbook elucidates of the basic properties of nanoparticles and various nanostructural materials with their characterisation methods in the first part. It also introduces more than 40 examples of practical and potential uses of nanoparticles in the later part dealing with applications. It is intended to give readers a clear picture of nanoparticles as well as new ideas or hints on their applications to create new materials or to improve the performance of the advanced functional materials developed with the nanoparticles.* Introduces all aspects of nanoparticle technology, from the fundamentals to applications.* Includes basic information on the preparation through to the characterization of nanoparticles from various viewpoints * Includes information on nanostructures, which play an important role in practical applications.
Environmental devices help in monitoring the collection of one or more measurements that are used to access the status of an environment. Today, environmental monitoring and analytical methods are among the most rapidly developing branches of analysis. The functionalization of nanomaterials in the field of environmental science has increasing importance with regards to the fabrication of devices. Functionalized nanomaterials reformulate new materials and advanced characteristics for improved application in comparison to old fashion materials and open an opportunity for the development of devices for introducing new technology and techniques for monitoring environmental challenges. The monitoring of these environmental challenges in advances have direct impact on health and sustainability. Functionalized nanomaterials have different mechanical, absorption, optical or electrical properties than original nanomaterials. In fact, major utilization of nanomaterials occurs in their functionalized forms, which are very different from the parent material. This handbook provides an overview of the different state-of-the-art materials, devices and environmental applications of functionalized nanomaterials. In addition, the information offers a platform for ongoing research in the field of environmental science and device fabrication. The main objective of this book is to cover the major areas focusing on the functionalization of nanomaterials, device fabrication along with different techniques and environmental applications of functionalized nanomaterials-based devices. This is an important reference source for materials scientists, engineers and environmental scientsts who are looking to increase their understanding of how functionalized nanomaterial-based devices are being used for environmental monitoring applications. - Helps the reader to understand the basic principles of functionalization of nanomaterials - Highlights fabrication and characterization methods for functionalized nanomaterials-based environmental monitoring devices - Assesses the major challenges of creating devices using functionalized nanomaterials on a mass scale