Smart Multifunctional Nano-inks: Fundamentals and Emerging Applications covers nano-inks and how they can be used in inkjet printers for printing complex circuitry on flexible substrates or as a paste for 3D printers. Microstructures can be 3D-printed using nano-inks in a combination of high-resolution plasma printing and subsequent rotogravure printing. In addition, smart multifunctional nano-inks are not only required for the electronic, but also in other applications, such as for secure inks, for currency, and in immigration documents. This book focuses on fundamental design concepts, promising applications, and future challenges of nano-inks in various areas, such as optoelectronics, energy, security and biomedical fields. The current challenge for the successful industrial application of nano-inks is in the preparation of a stable dispersion of advanced materials for nano-inks. The functionalization, synthesizing, and theoretical modeling provide the solution for most of the current issues, but there are still remaining challenges which are covered in this comprehensive resource. - Outlines the major nanomaterials used in the manufacture of smart nano-inks - Provides information on the major industrial applications of nano-inks - Assesses the major challenges of using nano-inks in a cost-effective way, and on an industrial scale

Smart Multifunctional Nano-inks: Fundamentals and Emerging Applications covers nano-inks and how they can be used in inkjet printers for printing complex circuitry on flexible substrates or as a paste for 3D printers. Microstructures can be 3D-printed using nano-inks in a combination of high-resolution plasma printing and subsequent rotogravure printing. In addition, smart multifunctional nano-inks are not only required for the electronic, but also in other applications, such as for secure inks, for currency, and in immigration documents. This book focuses on fundamental design concepts, promising applications, and future challenges of nano-inks in various areas, such as optoelectronics, energy, security and biomedical fields. The current challenge for the successful industrial application of nano-inks is in the preparation of a stable dispersion of advanced materials for nano-inks. The functionalization, synthesizing, and theoretical modeling provide the solution for most of the current issues, but there are still remaining challenges which are covered in this comprehensive resource. Outlines the major nanomaterials used in the manufacture of smart nano-inks Provides information on the major industrial applications of nano-inks Assesses the major challenges of using nano-inks in a cost-effective way, and on an industrial scale

This book presents selected contributions covering various scientific and technological areas by AITeM (Italian Manufacturing Association). The first part, "AITeM Young Researcher Award 2023," written by young AITeM associates, reflects the multifaceted nature of manufacturing research. It explores emerging technologies and interdisciplinary connections to go beyond product fabrication, developing a complex value creation ecosystem for high-value-added global competition. Topics include additive manufacturing, materials processing technology, assembly, disassembly, circular economy, manufacturing systems design and management, quality engineering, production metrology, process and system simulation, optimization, and digital manufacturing. The second part, "White Papers," features five contributions on emerging trends in manufacturing. These papers are prepared by Working Groups focusing on strategic research topics in the manufacturing sector, including metallic prosthetic implants, lasers in electric mobility, digital twins, naval and marine applications, and surface functionalization in biomedical implants. These papers provide an overview of challenges in these frontier areas, highlighting the need for a multidisciplinary and innovative approach from the community to successfully address them.

Nanotechnology has been incorporated into a wide range of garments to improve the durability of clothing / apparel and create new properties for a special end-used application. It also incorporates wearable electronics into clothing to make it smarter. Smart nano-textiles refers to the uses and integration of smart nanocoatings, nanosensors and nanodevices in multifunctional textiles, since they are both low cost and have low power consumption. Various organic and inorganic nanomaterials can be used in garments to improve their properties and create new properties such as anti-bacterial, superhydrophobic, auto-cleaning, self-cleaning, stain repellent, wrinkle-free, static eliminating, fire resistant and electrically conductive properties. This book focuses on the fundamental concepts and approaches for the preparation of smart nanotextiles, their properties, and their applications in multifarious industries, including smart garments, biomedicine, construction/building materials, energy conversion/storage, automotive/aerospace industries and agriculture. Shows how nanotechnology is being used to be able to enhance textiles with smart properties, including anti-bacterial, superhydrophobic and auto-cleaning Explores which nanomaterial types are most compatible with particular textile classes Assesses the major challenges of integrating nanosensors and nanodevices into textiles

Thin Film Nanomaterials: Synthesis, Properties and Innovative Energy Applications provides a comprehensive overview of the synthesis, properties, and cutting-edge applications of thin film nanomaterials. Each chapter explores different aspects of thin film synthesis and its application in energy devices, showcasing different metal-based and carbon nanomaterials . The book begins with a discussion on the synthesis and characterization of cadmium and zinc sulphide thin films for opto-electronics energy devices. Subsequent chapters delve into critical reviews of CIGS thin film nanomaterials, deposition techniques for metal oxide nanocomposite films, and nanostructured TiO2@carbon films for photocatalytic applications. Bandgap engineering, optical properties of composite films, and recent advancements in metal oxide thin films are also covered. Additionally, the synthesis and characteristics of iron oxide films for solar cell and green energy storage applications are discussed. Chapters on challenges and future prospects of CNT-based cathode emitters and advanced characterizations of nanocrystalline ferrimagnetic thin films provide valuable insights into emerging technologies. This book is an essential resource for professors, scientists, engineers, research scholars, postdocs, and undergraduate/graduate students seeking to explore the forefront of nanomaterials and their applications in energy systems.

Shape Memory Polymer derived Nanocomposites: Features to Cutting-Edge Advancements summarizes the up-to-date of fundamentals and applications of the shape memory polymer derived nanocomposites. Design and fabrication of shape memory polymeric nanocomposites have gained significant importance in the field of up-to-date nano/materials science and technology. In recent times, the shape memory polymers and nanocomposites have attracted considerable academic and industrial research interest. This feature book will present a state-of-the-art assessment on the versatile shape memory materials. The flexibility, durability, heat stability, shape deformability, and shape memory features of these polymers have shown dramatic improvements with the nanofiller addition. Appropriate choice of the stimuli-responsive polymer, nanofiller type and content, and fabrication strategies may lead to enhanced physicochemical features and stimuli-responsive performance. Several successful stimuli-responsive effects have been achieved in the shape memory nanocomposites such as thermo-responsive, electro-active, photo-active, water/moisture-responsive, pH-sensitive, etc. Consequently, the shape memory polymer based nanocomposites have found applications in high-tech devices and applications. This book initially offers a futuristic knowledge regarding indispensable features of the shape memory polymeric nanocomposites. Afterwards, the essential categories of the stimuli-responsive polymer-based nanocomposites have been discussed in terms of recent scientific literature. Subsequent sections of this book are dedicated to the potential of shape memory polymer-based nanocomposite in various technical fields. Significant application areas have been identified as foam materials, aerospace, radiation shielding, sensor, actuator, supercapacitor, electronics and biomedical relevance. The book chapters also point towards the predictable challenges and future opportunities in the field of shape memory nanocomposites. - Provides the essentials of shape memory polymeric nanocomposites - Includes important categories of shape memory nanocomposites - Presents current technological applications of shape memory polymers and derived nanocomposite in sponges, aerospace, EMI shielding, ionizing radiation shielding, sensors, actuator, supercapacitor, electronics, and biomedical fields

This new edition of Graphene: Important Results and Applications provides a succinct overview of this innovative material, its history and development, applications, future prospects, and challenges. This 2nd edition has been updated and expanded to include all the latest developments. It covers production of graphene and its derivatives, commercial manufacture of graphene, research results and data on its properties, graphene dispersion, chemical modification, and cutting-edge applications. Eleven groups of production methods of graphene and its derivatives are discussed at length, providing how-to-do and what-to-expect analysis and comparison of potential properties of the resultant products. Also included are ideas for new product development and possible improvement of existing products, as is insight into the unique nature of graphene and its types, including morphology and thickness, mechanical properties, electrical conductivity, elastic properties of 2D and 3D structures, and more. - Provides an extensive account of the latest research in methods of production of graphene and its derivatives - Covers commercial manufacture, research results, property data, and cutting-edge applications - Discusses methods of incorporation in graphene products, chemical modifications, and projected future uses