Audisee® eBooks with Audio combine professional narration and text highlighting for an engaging read aloud experience! Did you know that scientists are able to build with atoms, the smallest building blocks of the universe? Advanced devices, materials, and computers are three areas in which nanotechnology is changing our future a few molecules at a time. Learn more about how scientists work with the tiniest objects imaginable.
This book provides a compressive overview of nanotechnology in modern drug discovery for students and researchers. The book starts with the fundamentals of nanotechnology followed by nanomaterials in pharmaceutical drug design, drug delivery applications, regulatory aspects, formulation and nanoparticle biotransformation. It provides a step by step guide through the drug development process while conveying information about the benefits of nanomaterials for therapy. The book concludes with perspective on the future of nanotechnology-based drug discovery, summarizing current knowledge on nanotherapeutics and translational medicine. Key Features - Explains the fundamentals of nanotechnology in drug discovery - Includes up-to-date information on modern nanopharmaceutical manufacturing, nanomaterials, and nanoparticle-based drug therapy - Practice questions for learners and a list of references for advanced readers for each chapter.
Nanotechnology allows scientists to work with tiny particles. This can help engineers create smaller products and let doctors check people’s health. This evolving technology creates more durable buildings and is used in the suits worn by astronauts. Learn about the uses of nanotechnology and how this field can shape the future.
Small is cool! What is nanotechnology? What are MEMS? And what makes them so special? Welcome to the wonderful world of really small stuff. Things so tiny, you need special microscopes to even see them. MEMS and Nanotechnology for Kids explores what you can find at the micro- and nano-scale; where you?ll discover all sorts of amazingly small sensors, structures and materials. You?ll learn what they do and how they work, then find out why they?re useful in all kinds of products, from bikes to video games. Did you know that the ancient Egyptians were among the first to use nanoparticles in cosmetics? That MEMS sensors can monitor pressure ? right inside your heart? Find out how the technologies of tomorrow are being applied in real products today. Written for students age 11-14 to inspire interest in science, technology, engineering and math.
Applications of Nanotechnology in Drug Discovery and Delivery, in the Drug Discovery Update series, presents complete coverage of the application of nanotechnology in the discovery of new drugs and efficient target delivery of drugs. The book highlights recent advances of nanotechnology applications in the biomedical sciences, starting with chapters that provide the basics of nanotechnology, nanoparticles and nanocarriers. Part II deals with the application of nanotechnology in drug discovery, with an emphasis on enhanced delivery of pharmaceutical products, with Part III discussing toxicological and safety issues arising from the use of nanomaterials. This book brings together a global team of experts, making it an essential resource for researchers, drug developers, medicinal chemists, toxicologists and analytical chemists. - Serves as a guide to drug developers working in pharma, biotech and academia, bringing together the latest research on the topic - Presents recent information on the use of nanomaterials for the development of drugs using engineered nanocarriers to target specific delivery - Features a global team of contributing experts who discuss nanotechnology applications in drug discovery as well as safety issues and challenges
The study tackles the subject in a new and unique way: Due to the fact that the borders between classical academic disciplines disappear at the nanoscale, a truly interdisciplinary approach is chosen. A functional definition of nanotechnology is developed by the authors as basis for the further sections of the study. The most important results enable recommendations with respect to scientific progress, industrial relevance, economic potential, educational needs, potential adverse health effects and philosophical aspects of nanotechnology. The book addresses the relevant decision levels, media, and academia.
Conductive ink is a special type of ink that allows an electric current to flow through the ink. The conductive ink-filled epoxy is also known as conductive composite because the ink itself is based on more than two ingredients such as filler, binder and hardener. As interconnect material, the conductive inks should feature good electrical, mechanical and thermal properties. Nonetheless, to-date, there are some issues with current conductive ink that available in the market namely printing quality, high electrical resistivity as well as inferior mechanical strength. Therefore, this book aims to produce highly functional conductive ink using two types of carbon-based conductive fillers with epoxy as a binder. More specifically, graphene nanoplatelets (GNP) and multiwalled carbon nanotube (MWCNT) were used to produce the hybrid conductive ink. It is very important to make sure the materials are contact with each other and therefore the movement of an electron will become easier.
Discover the role of nanotechnology in promoting plant growth and protection through the management of microbial pathogens In Nanotechnology in Plant Growth Promotion and Protection, distinguished researcher and author Dr. Avinash P. Ingle delivers a rigorous and insightful collection of some of the latest developments in nanotechnology particularly related to plant growth promotion and protection. The book focuses broadly on the role played by nanotechnology in growth promotion of plants and their protection through the management of different microbial pathogens. You’ll learn about a wide variety of topics, including the role of nanomaterials in sustainable agriculture, how nano-fertilizers behave as soil feed, and the dual role of nanoparticles in plant growth promotion and phytopathogen management. You’ll also discover why nanotechnology has the potential to revolutionize the current agricultural landscape through the development of nano-based products, like plant growth promoters, nano-fertilizers, nano-pesticides, and nano-insecticides. Find out why nano-based products promise to be a cost-effective, economically viable, and eco-friendly approach to tackling some of the most intractable problems in agriculture today. You’ll also benefit from the inclusion of: A thorough introduction to the prospects and impacts of using nanotechnology to promote the growth of plants and control plant diseases An exploration of the effects of titanium dioxide nanomaterials on plant growth and the emerging applications of zinc-based nanoparticles in plant growth promotion Practical discussions of nano-fertilizer in enhancing the production potentials of crops and the potential applications of nanotechnology in plant nutrition and protection for sustainable agriculture A concise treatment of nanotechnology in seed science and soil feed Toxicological concerns of nanomaterials used in agriculture Perfect for undergraduate, graduate, and research students of nanotechnology, agriculture, plant science, plant physiology, and crops, Nanotechnology in Plant Growth Promotion and Protection will also earn a place in the libraries of professors and researchers in these areas, as well as regulators and policymakers.
Hype, hope, or horror? A vivid look at nanotechnology, written by an insider and experienced science writer. The variety of new products and technologies that will spin out of nanoscience is limited only by the imagination of the scientists, engineers and entrepreneurs drawn to this new field. Steve Edwards concentrates on the reader's self interest: no military gadgets, wild fantasies of horror nanobot predators and other sci-fi stuff, but presents a realistic view of how this new field of technology will affect people in the near future. He is in close contact with many pioneers in nanotechnology, and includes their backgrounds to allow readers, especially college students considering a career in the field, to better imagine themselves in such positions. However, technology does not develop in a vacuum, and this book also looks at the social, political and economic changes attendant upon the development of nanotechnology. For the science-interested general public as well as chemists, students, lecturers, chemical organizations, materials scientists, journalists, politicians, industry, physicists, and biologists.
