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This text highlights the applications of nanotechnology for medicine and the biosciences. Medical aspects of nanotechnology and the range of nanofabrication and microengineering techniques available for biological research and possible clinical applications are discussed. The volume reviews scanning probe and submicron optical microscopy of biomolecules, precision machining of biomaterials with lasers, novel devices made to nanometric tolerances and nano-sized particles for drug delivery systems. The interaction of cells with nanotextured surfaces is another area in which nanotechnology may play an important role in fixation for joint prostheses and tissue repair.
Our brain is the source of everything that makes us human: language, creativity, rationality, emotion, communication, culture, politics. The neurosciences have given us, in recent decades, fundamental new insights into how the brain works and what that means for how we see ourselves as individuals and as communities. Now – with the help of new advances in nanotechnology – brain science proposes to go further: to study its molecular foundations, to repair brain functions, to create mind-machine interfaces, and to enhance human mental capacities in radical ways. This book explores the convergence of these two revolutionary scientific fields and the implications of this convergence for the future of human societies. In the process, the book offers a significant new approach to technology assessment, one which operates in real-time, alongside the innovation process, to inform the ways in which new fields of science and technology emerge in, get shaped by, and help shape human societies.
This title includes a number of Open Access chapters.Considered the next industrial revolution, nanotechnology is an exciting field with new advances being reported regularly. It is a very diverse and highly interdisciplinary field, involving the science and engineering fields. Nanotechnolgy deals with the smallest building blocks of matter and inv
This edited compilation presents some of the latest advancements in the field of nanotechnology. Chapter One details the use of self-emulsifying drug delivery systems as a technique for improving drug solubility. Chapter Two describes a proposal for improving the efficiency of solar panels by harvesting heat energy as well as light energy. Chapter Three investigates the efficacy of a sensor composed of carbon nanotubes and other nanomaterials for detecting toxic phenolic compounds in the environment. Chapter Four studies the characteristics of a sensor prepared with low-dimensional metal oxide nanoparticles with a fast response towards Xanthine. Chapter Five compares different approaches to modeling of the kinetics of metal nanoparticles formation and analyzes how these methods could be improved. Chapter Six deals with the use of heavy metal oxide nanoparticles for unsafe bio-chemical detection. Chapter Seven summarizes the importance, properties and applications of carbon nanotubes as a potential superior adsorbent group. Lastly, Chapter Eight obtains the structural model of an electroelastic actuator for nanotechnology.
Nanotechnology is a multidisciplinary field and has achieved breakthroughs in bioengineering, molecular biology, diagnostics, and therapeutics. Nanotechnology is the study of the control of matter on an atomic and molecular scale. Generally nanotechnology deals with structures of the size 100 nanometers or smaller, and involves developing materials or devices within that size. Nanotechnology is very diverse, ranging from novel extensions of conventional device physics, to completely new approaches based upon molecular self-assembly, to developing new materials with dimensions on the nanoscale, even to speculation on whether we can directly control matter on the atomic scale. There has been much debate on the future of implications of nanotechnology. Nanotechnology has the potential to create many new materials and devices with wide-ranging applications, such as in medicine, electronics, and energy production. On the other hand, nanotechnology raises many of the same issues as with any introduction of new technology, including concerns about the toxicity and environmental impact of nanomaterials, and their potential effects on global economics, as well as speculation about various doomsday scenarios. These concerns have led to a debate among advocacy groups and governments on whether special regulation of nanotechnology is warranted. Advances in Nanotechnology, Volume 3 gathers the latest research from around the globe in this dynamic field.
An improved understanding of the interactions between nanoparticles and plant retorts, including their uptake, localization, and activity, could revolutionize crop production through increased disease resistance, nutrient utilization, and crop yield. This may further impact other agricultural and industrial processes that are based on plant crops. This two-volume book analyses the key processes involved in the nanoparticle delivery to plants and details the interactions between plants and nanomaterials. Potential plant nanotechnology applications for enhanced nutrient uptake, increased crop productivity and plant disease management are evaluated with careful consideration regarding safe use, social acceptance and ecological impact of these technologies. Plant Nanobionics: Volume 1, Advances in the Understanding of Nanomaterials Research and Applications begins the discussion of nanotechnology applications in plants with the characterization and nanosynthesis of various microbes and covers the mechanisms and etiology of nanostructure function in microbial cells. It focuses on the potential alteration of plant production systems through the controlled release of agrochemicals and targeted delivery of biomolecules. Industrial and medical applications are included. Volume 2 continues this discussion with a focus on biosynthesis and toxicity.
This book provides a review of the latest research findings and key applications in the field of nanomaterials. The book contains twelve chapters on different aspects of nanomaterials. It begins with key fundamental concepts to aid readers new to the discipline of nanomaterials, and then moves to the different types of nanomaterials studied. The book includes chapters based on the applications of nanomaterials for nano-biotechnology and solar energy. Overall, the book comprises chapters on a variety of topics on nanomaterials from expert authors across the globe. This book will appeal to researchers and professional alike, and may also be used as a reference for courses in nanomaterials.
The scientific knowledge of nanoscience and nanotechnology is regarded to be a modern sciencethat evolved after Feynman’s concept was formulated in the 1950s. However, Faraday and other scientists in the 19th century showed the science behind the small and its relation to optical properties. And it is now accepted that knowledge of using nanoparticles prevailed during the medieval period as well. This book takes the readers on a fascinating journey writing the history of nanotechnology based on the evidence of existence from the prehistoric period right up to the contemporary times. Nature utilized nanotechnology during the origin and expansion of the universe and especially in the evolution of living beings on our planet. Early civilizations in different parts of globe fabricated and used materials without having perception of their actual size. This unique historical view systematically evaluates the development of various applications of nanotechnology through the ages and the science behind it. Some of the issues covered include: • How old is nanotechnology? • Pre-historic evidence of knowledge of nanotechnology • Nanotechnology in ancient India • Ayurvedic Bhasma as nanomedicine • Mayan’s knowledge of nanotechnology • Nanotechnology during the Roman empire and medieval period • European knowledge in the 19th century • Modern and contemporary history of nanotechnology This book is compilation of existence of scientific knowledge even of the people who existed before there were schools, universities and organized teaching. The author has scoured literature dating back to Mayan ... as well as historical observations A systematic evaluation of development of various applications of nanotechnology and the science behind it is presented in this book under following headings -How old is Nanotechnology -Pre-historic Evidence of Knowledge of Nanotechnology -Nanotechnology in Ancient India -Ayurvedic Bhasma as Nanomedicine, its use prevails even today -Mayan’s Knowledge of Nanotechnology -Nanotechnologists Flourished During Roman Empire and medieval period -European Nano knowledge That Led to Faraday Understands of Gold Nanoparticles -Contemporary History of Nanotechnology
This third volume on environmental nanotechnology includes chapters dealing with topics such nanoremediation, waste water purification, nanosensors, nanomedicine, and nanofiltration. It also highlights the safety aspects and risk assessment and management related to several toxins, as well as nanotechnology related solutions for these challenges. The book also discusses new nanomaterials from the nexus of environment, water, remediation and total environment.
Intended as a reference for basic and practical knowledge about the synthesis, characterization, and applications of nanotechnology for students, engineers, and researchers, this book focuses on the production of different types of nanomaterials and their applications, particularly synthesis of different types of nanomaterials, characterization of