Nanotechnology-Driven Engineered Materials


Book Description

Nanostructured materials are emerging as a new class of materials that exhibit unique microstructures and enhanced mechanical performance. As an outcome of this, these materials have attracted considerable attention in scientific communities all over the world. There is continuous research to facilitate product development, thereby improving product quality and reliability in industry. This volume is devoted to novel architectures at the nano-level with an emphasis on new synthesis and characterization methods. Special emphasis is given to new applications of nanostructures and nanocomposites in various fields, such as nano-electronics, energy conversion, catalysis, drug delivery and nano-medicine. The chapters are divided into sections focusing on: Nanoparticles Assembly and Nanostructured Materials Nanocomposites Properties Nanostructured Materials for Biomedical Applications




Nanotechnology-Driven Engineered Materials


Book Description

Nanostructured materials are emerging as a new class of materials that exhibit unique microstructures and enhanced mechanical performance. As an outcome of this, these materials have attracted considerable attention in scientific communities all over the world. There is continuous research to facilitate product development, thereby improving product quality and reliability in industry. This volume is devoted to novel architectures at the nano-level with an emphasis on new synthesis and characterization methods. Special emphasis is given to new applications of nanostructures and nanocomposites in various fields, such as nano-electronics, energy conversion, catalysis, drug delivery and nano-medicine. The chapters are divided into sections focusing on: Nanoparticles Assembly and Nanostructured Materials Nanocomposites Properties Nanostructured Materials for Biomedical Applications




The Nanotechnology Driven Agriculture


Book Description

Nanotechnology is believed to accelerate our fight to sustain and enhance crop productivity for the ever-increasing world population. It has been reckoned as one of the safest and most cost-efficient techniques to boost crop productivity in the future. The ever-increasing state-of-the-art availability of various nanomaterials has allowed us to pursue their beneficial properties in agronomy. Nanotechnology will help minimize the dependency on chemical fertilizers and existing crop production techniques that have already been exploited to their maximum potential. Therefore, in the present context, it could well be realized that agriculture will be driven by nanotechnology in the future. This book focuses on the application of nanotechnology for enhancing crop production through the application of nanofertilizers or nanocomposites. Several avenues of nanotechnology are beneficial in improving crop productivity in a sustainable manner, which has been presented in a comprehensive way. The book also delves into the mechanistic view of nanoparticle functioning and its role in stress alleviation. In addition, the book presents some recent insights into the application of nanotechnology for post-harvest management, stress tolerance and usage as nanobiosensors. Broadly, the book will encompass the following advances in the field, distinguishing it from other published volumes. The salient features include: · Role of nanoparticles in improving abiotic stress tolerance in plants. · Role of nanoparticles in protection against pathogens and pests. · Mechanism of nanoparticle-induced plant responses. · Synthesis and modification of nanoparticles to enhance their biological efficacy. · Prospects of nanofertilizers, nanoformulations, nanopesticides, etc., and their beneficial attributes. This book, therefore, presents this emerging topic and the most recent innovations in this field for postgraduate students, researchers and faculty members working in the fields of plant science, microbiology, biotechnology, agricultural sciences, etc.




Nanotechnology Driven Herbal Medicine for Burns: From Concept to Application


Book Description

Burns can cause life-threatening injury and the lengthy hospitalization and rehabilitations required in burn therapy lead to higher healthcare costs. The risk of infection has also been one of the important concerns of burn wound management. The purpose of the burn wound care management is speedy wound healing and epithelization to limit the infection. The topical application of therapeutic agents is quintessential for the longevity of patients having significant burns. In recent times, research on herbal medicine for burn wound management has been vastly increased because of their safer toxicological profiles in contrast to synthetic medicines. Despite the promising therapeutic potential of herbal medicines in this area, herbal medications have some limitations which include low pharmacological activity, solubility and stability. Nanotechnology-based smart drug delivery approaches which involve the use of small molecules as nanocarriers, however, can help to overcome these biopharmaceutical challenges. This book provides an overview of plant-mediated metallic nanoparticulate systems and nanophytomedicine based therapeutic treatment modalities for burn wound lesions. Nine chapters deliver updated information about nanomedicines for burn wound therapy. Contributions are written by experts in nanomedicine and phytomedicine and collectively cover the pathophysiology of wound lesions, current and future outlook of nanomedicine based treatments for burn wound lesions, the role of biocompatible nanomaterials in burn wound management, plant-mediated synthesis of metal nanoparticles for treating burn wound sepsis, phytomedicine based nanoformulations and the phyto-informatics models involved in the wound healing process which are used to select appropriate nanotherapeutic agents. This reference serves as an accessible source of information on the topic of nanomedicine for burn treatments for all healthcare professionals (medical doctors, nurses, students trainees) and researchers in allied fields (pharmacology, phytomedicine) who are interested in this area of medicine.




Engineered Biomaterials: Progress And Prospects


Book Description

Engineered Biomaterials: Progress and Prospects presents state-of-the-art developments in the area of biomaterials research exemplified by experts in the fields of tissue engineering, wound healing, bio-diagnostics, novel therapeutics and advanced drug delivery systems.It provides a comprehensive account of preparation, characterisation, properties, processing, biological and clinical evaluation of a large variety of materials for specific biomedical applications. Basic concepts related to wound healing, tissue engineering and drug delivery systems, and the principal role played by macro, micro and nano scaled structures in biomaterials are presented in a clear manner. Developments in the area of conventional and advanced wound care strategies, materials for periodontal therapeutics, in-situ gelling tissue adhesives, biodegradable composites etc are illustrated in a lucid manner. Advanced processing techniques explored for the fabrication of micro-needles for vaccine delivery, 3D printing of personalized pharmaceuticals, bio-resorbable coatings, metallosurfactants and surface engineering of nanosystems are depicted in a straightforward and reasonable way.This book also discusses various advanced therapeutic and diagnostic systems such as magnetic nanoparticle based hyperthermia and their surface functionalization techniques. Lipid-based nano delivery systems for psoriasis, irritable bowel syndrome and pain management, polyrotaxane polymers, wearable devices for sensing etc are also depicted in this book. The contents are designed in a manner that will be highly suited for academic researchers, clinicians and industrialists who wish to explore in the versatile field of biomaterials as it contains a wealth of valuable information that will be equally useful to both beginners as well as established researchers.




Nanotechnology in Eco-Efficient Construction


Book Description

As the environmental impact of existing construction and building materials comes under increasing scrutiny, the search for more eco-efficient solutions has intensified. Nanotechnology offers great potential in this area and is already being widely used to great success. Nanotechnology in eco-efficient construction is an authoritative guide to the role of nanotechnology in the development of eco-efficient construction materials and sustainable construction.Following an introduction to the use of nanotechnology in eco-efficient construction materials, part one considers such infrastructural applications as nanoengineered cement-based materials, nanoparticles for high-performance and self-sensing concrete, and the use of nanotechnology to improve the bulk and surface properties of steel for structural applications. Nanoclay-modified asphalt mixtures and safety issues relating to nanomaterials for construction applications are also reviewed before part two goes on to discuss applications for building energy efficiency. Topics explored include thin films and nanostructured coatings, switchable glazing technology and third generation photovoltaic (PV) cells, high-performance thermal insulation materials, and silica nanogel for energy-efficient windows. Finally, photocatalytic applications are the focus of part three, which investigates nanoparticles for pollution control, self-cleaning and photosterilisation, and the role of nanotechnology in manufacturing paints and purifying water for eco-efficient buildings.Nanotechnology in eco-efficient construction is a technical guide for all those involved in the design, production and application of eco-efficient construction materials, including civil engineers, materials scientists, researchers and architects within any field of nanotechnology, eco-efficient materials or the construction industry. - Provides an authoritative guide to the role of nanotechnology in the development of eco-efficient construction materials and sustainable construction - Examines the use of nanotechnology in eco-efficient construction materials - Considers a range of important infrastructural applications, before discussing applications for building energy efficiency




Handbook Of Biomimetics And Bioinspiration: Biologically-driven Engineering Of Materials, Processes, Devices, And Systems (In 3 Volumes)


Book Description

Global warming, pollution, food and water shortage, cyberspace insecurity, over-population, land erosion, and an overburdened health care system are major issues facing the human race and our planet. These challenges have presented a mandate to develop “natural” or “green” technologies using nature and the living system as a guide to rationally design processes, devices, and systems. This approach has given rise to a new paradigm, one in which innovation goes hand-in-hand with less waste, less pollution, and less invasiveness to life on earth. Bioinspiration has also led to the development of technologies that mimic the hierarchical complexity of biological systems, leading to novel highly efficient, more reliable multifunctional materials, devices, and systems that can perform multiple tasks at one time. This multi-volume handbook focuses on the application of biomimetics and bioinspiration in medicine and engineering to produce miniaturized multi-functional materials, devices, and systems to perform complex tasks. Our understanding of complex biological systems at different length scales has increased dramatically as our ability to observe nature has expanded from macro to molecular scale, leading to the rational biologically-driven design to find solution to technological problems in medicine and engineering.The following three-volume set covers the fields of bioinspired materials, electromechanical systems developed from concepts inspired by nature, and tissue models respectively.The first volume focuses on the rational design of nano- and micro-structured hierarchical materials inspired by the relevant characteristics in living systems, such as the self-cleaning ability of lotus leaves and cicadas' wings; the superior walking ability of water striders; the anti-fogging function of mosquitoes' eyes; the water-collecting ability of Namib Desert Beetles and spider silk; the high adhesivity of geckos' feet and rose petals; the high adhesivity of mussels in wet aquatic environments; the anisotropic wetting of butterflies' wings; the anti-reflection capabilities of cicadas' wings; the self-cleaning functionality of fish scales; shape anisotropy of intracellular particles; the dielectric properties of muscles; the light spectral characteristics of plant leaves; the regeneration and self-healing ability of earthworms; the self-repairing ability of lotus leaves; the broadband reflectivity of moths' eyes; the multivalent binding, self-assembly and responsiveness of cellular systems; the biomineral formation in bacteria, plants, invertebrates, and vertebrates; the multi-layer structure of skin; the organization of tissue fibers; DNA structures with metal-mediated artificial base pairs; and the anisotropic microstructure of jellyfish mesogloea. In this volume, sensor and microfluidic technologies combined with surface patterning are explored for the diagnosis and monitoring of diseases. The high throughput combinatorial testing of biomaterials in regenerative medicine is also covered.The second volume presents nature-oriented studies and developments in the field of electromechanical devices and systems. These include actuators and robots based on the movement of muscles, algal antenna and photoreception; the non-imaging light sensing system of sea stars; the optical system of insect ocellus; smart nanochannels and pumps in cell membranes; neuromuscular and sensory devices that mimic the architecture of peripheral nervous system; olfaction-based odor sensing; cilia-mimetic microfluidic systems; the infrared sensory system of pyrophilous insects; ecologically inspired multizone temperature control systems; cochlea and surface acoustic wave resonators; crickets' cercal system and flow sensing abilities; locusts' wings and flapping micro air vehicles; the visual motion sensing of flying insects; hearing aid devices based on the human cochlea; the geometric perception of tortoises and pigeons; the organic matter sensing capability of cats and dogs; and the silent flight of rats. The third volume features engineered models of biological tissues. These include engineered matrices to mimic cancer stem cell niches; in vitro models for bone regeneration; models of muscle tissue that enable the study of cardiac infarction and myopathy; 3D models for the differentiation of embryonic stem cells; bioreactors for in vitro cultivation of mammalian cells; human lung, liver and heart tissue models; topographically-defined cell culture models; ECM mimetic tissue printing; biomimetic constructs for regeneration of soft tissues; and engineered constructs for the regeneration of musculoskeletal and corneal tissue.This three-volume set is a must-have for anyone keen to understand the complexity of biological systems and how that complexity can be mimicked to engineer novel materials, devices and systems to solve pressing technological challenges of the twenty-first century.Key Features:The only handbook that covers all aspects of biomimetics and bioinspiration, including materials, mechanics, signaling and informaticsContains 248 colored figures




Advanced Micro- and Nano-manufacturing Technologies


Book Description

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.




Biomaterials and Bionanotechnology


Book Description

Biomaterials and Bionanotechnology examines the current state of the field within pharmaceutical sciences and concisely explains the history of biomaterials including key developments. Written by experts in the field, this volume within the Advances in Pharmaceutical Product Development and Research series deepens understanding of biomaterials and bionanotechnology within drug discovery and drug development. Each chapter delves into a particular aspect of this fast-moving field to cover the fundamental principles, advanced methodologies and technologies employed by pharmaceutical scientists, researchers and pharmaceutical industries to transform a drug candidate or new chemical entity into a final administrable dosage form, with particular focus on biomaterials and bionanomaterials. This book provides a comprehensive examination suitable for researchers working in the pharmaceutical, cosmetics, biotechnology, food and related industries as well as advanced students in these fields. - Examines the most recent developments in biomaterials and nanomaterials for pharmaceutical sciences - Covers important topics, such as the fundamentals of polymers science, transportation and bio interaction of properties in nanomaterials across biological systems, and nanotechnology in tissue engineering as they pertain specifically to pharmaceutical sciences - Contains extensive references for further discovery on the role of biomaterials and nanomaterials in the drug discovery process




Solid State Batteries


Book Description

Solid State Batteries: From Discovery to Modern Energy Applications is an authoritative guide to the rapidly evolving field of solid state battery technology, written by three leading experts: Ron Legarski, Yash Patel, and Zoltan Csernus. This book offers readers a comprehensive look into the scientific advancements, practical applications, and future potential of solid state batteries (SSBs) in key industries such as automotive, renewable energy, consumer electronics, and grid energy storage. As the world moves toward a more sustainable, low-carbon future, solid state batteries stand out for their higher energy density, improved safety, and greater efficiency compared to traditional battery systems. This book dives deep into the materials science, engineering challenges, and emerging technologies that are making solid state batteries the energy solution of the future. What you will gain from this book: A detailed breakdown of solid state battery technology, including advancements in solid electrolytes, anode and cathode materials, and energy storage mechanisms. Insights into how solid state batteries are transforming industries, from electric vehicles and medical devices to renewable energy integration and nuclear power. An exploration of the ongoing research and development aimed at overcoming current challenges such as scalability, manufacturing costs, and material sourcing. Comparisons with traditional lithium-ion batteries, illustrating why solid state technology is safer, more durable, and offers higher energy capacity. An analysis of the broader economic and environmental impact of solid state batteries, and their role in the transition to smart grids, decarbonized energy systems, and sustainable energy infrastructure. About the Authors: Ron Legarski is the President and CEO of SolveForce, with over two decades of experience in telecommunications, IT infrastructure, and energy systems. His expertise lies in integrating advanced network technologies with emerging energy storage solutions, and he is a well-regarded leader in technology innovation and broadband solutions. Yash Patel, founder of NanoGate Technologies, is an expert in laser physics, solid-state physics, and nuclear engineering. His extensive experience in the biopharma and high-tech industries has positioned him at the forefront of advancing solid state battery technologies across multiple sectors. Zoltan Csernus is the owner of CZ Electric and a master electrician with over 40 years of experience. His pioneering work in power quality and energy systems has contributed to the development of small modular reactors (SMRs) and advanced nuclear energy storage solutions, establishing him as a leader in the electrical industry. This book is an essential resource for engineers, researchers, energy professionals, and anyone interested in the future of sustainable energy. With a focus on real-world applications, technical advancements, and the broader impact of solid state batteries, this book offers the insights needed to stay ahead in the rapidly evolving field of energy storage technology.