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Nanotechnology, the science of molecular engineering at the atomic scale, has captured the popular imagination. From movies to TV series to video games, utopian fantasies and horror scenarios involving nanotechnology have become a staple of the entertainment industry. The hyperbole surrounding this new technology comes not only from the media but also from scientists who exaggerate the anticipated benefits of nanotechnology to justify research funding, as well as from environmentalists and globalization opponents, who sometimes indulge in doom-and-gloom prophecies to advance their own agendas. The result is widespread misinformation and an uninformed public.In an effort to set the record straight, professor of communication studies David M. Berube has written this thoroughly researched, accessible overview of nanotechnology in contemporary culture. He evaluates the claims and counterclaims about nanotechnology by a broad range of interested parties including government officials and bureaucrats, industry leaders and entrepreneurs, scientists, journalists, and other persons in the media. Berube appraises programs and grand initiatives here and abroad, and he examines the environmental concerns raised by opponents, as well as the government and private responses to these concerns. With so much argumentation on both sides, it is difficult for anyone to determine what is true. Nano-Hype provides up-to-date, objective information to inform the public.Based on over a decade of research and interviews with many of the movers and shakers in nanotechnology, this critical study will help the reader separate the realistic prospects from the hype surrounding this important cutting-edge technology.
Drug Delivery Aspects reviews additional features of drug delivery systems, along with the standard formulation development, like preclinical testing, conversion into solid dosage forms, roles of excipients and polymers used on stability and sterile processing. There is a focus on formulation engineering and related large scale (GMP) manufacturing, regulatory, and functional aspects of drug delivery systems. A detailed discussion on biologics and vaccines gives insights to readers on new developments in this direction. The series Expectations and Realities of Multifunctional Drug Delivery Systems examines the fabrication, optimization, biological aspects, regulatory and clinical success of wide range of drug delivery carriers. This series reviews multifunctionality and applications of drug delivery systems, industrial trends, regulatory challenges and in vivo success stories. Throughout the volumes discussions on diverse aspects of drug delivery carriers, such as clinical, engineering, and regulatory, facilitate insight sharing across expertise area and form a link for collaborations between industry-academic scientists and clinical researchers. Expectations and Realities of Multifunctional Drug Delivery Systems connects formulation scientists, regulatory experts, engineers, clinical experts and regulatory stake holders. The wide scope of the book ensures it as a valuable reference resource for researchers in both academia and the pharmaceutical industry who want to learn more about drug delivery systems. - Encompasses engineering and large-scale manufacturing of nanocarriers - Considers preclinical, regulatory and ethical guidelines on nanoparticles - Contains in-depth discussions on delivery of biologics, vaccines and sterilisation - Industrial view on solid dispersions, milling techniques
Nanotechnology Environmental Health and Safety tackles – in depth and in breadth – the complex and evolving issues pertaining to nanotechnology's environmental health and safety (EHS). The chapters are authored by leaders in their respective fields, providing thorough analysis of their research areas. The diverse spectrum of topics include nanotechnology EHS issues, financial implications, foreseeable risks including exposure, dosage and hazards, and the implications of occupational hygiene precautions and consumer protections. The book includes real-world case studies, wherever practical, to illustrate specific issues and scenarios encountered by stakeholders positioned on the front-lines of nanotechnology-enabled industries. These case studies will appeal to, and resonate with, laboratory scientists, business leaders, regulators, service providers, and postgraduate researchers. - Reviews toxicological studies and industrial initiatives, supported by numerous case studies - Covers new generation of nanoparticles and significantly expands on existing material from second edition - Only edited volume to collect research on the regulatory and risk implications of a wide array of industrial, environmental and consumer nanomaterials
Nanotechnology has been emerging as an important tool in the nutraceutical and food industries to improve the overall quality of life. Nanotechnology has established a new horizon by bestowing modified properties on nanomaterials and applying them to the production of nanoformulations, nutritional supplements, and the food industry. The Handbook of Nanotechnology in Nutraceuticals highlights the impact of nanotechnology on the food industries. The book focuses on the application of nanotechnology in nutraceuticals and the food industry to improve the overall quality of life. The book also addresses some important applications of nano-nutraceuticals in the treatment of different diseases, such as oxidative stress, cancer, neurodegenerative disorders, cardiovascular diseases, and so on. Features • Presents a scientometric approach to analyze the emergence of nano-nutraceuticals in cancer prevention and treatment • Examines various strategies employed to prepare nanocarrier systems, such as nanoparticles, nanostructure lipids, phospholipid-based nanocarriers, polysaccharide-based nanostructures, and metal nanoparticles • Discusses various regulatory issues related to nanotechnology and their application in different fields This book is a valuable reference for nanotechnologists, scientists, and researchers working in the field of food technology, food science, pharmaceuticals, and nutraceuticals.
Nanotechnology (NT) -- a term encompassing the science, engineering, and applications of sub-micron materials -- involves the harnessing of unique physical, chemical, and biological properties of nanoscale substances in fundamentally new and useful ways. The economic and societal promise of NT has led to substantial and sustained investments by governments and co. around the world. In 2000, the U.S, launched the world's first national NT program. From FY 2001 through FY 2010, the fed. gov't. invested $12.4 billion in nanoscale science, engineering, and technology through the NNI. Contents of this report: Intro.; Overview; NNI; Selected NNI Reports and Assessments; NT Legislation in the 111th Congress. Illus. A print on demand report.
Advances in nanoscience and nanotechnology promise great technical breakthroughs in the coming decades. In this book, leading scientists, engineers, and social scientists review the possible uses of these impending technical developments in various industrial, medical, and national security applications. They also examine the corresponding ethical, legal, social, economic, and educational issues that these developments raise.
energy production, environmental management, transportation, communication, computation, and education. As the twenty-first century unfolds, nanotechnology's impact on the health, wealth, and security of the world's people is expected to be at least as significant as the combined influences in this century of antibiotics, the integrated circuit, and human-made polymers. Dr. Neal Lane, Advisor to the President for Science and Technology and former National Science Foundation (NSF) director, stated at a Congressional hearing in April 1998, "If I were asked for an area of science and engineering that will most likely produce the breakthroughs of tomorrow, I would point to nanoscale science and engineering. " Recognizing this potential, the White House Office of Science and Technology Policy (OSTP) and the Office of Management and Budget (OMB) have issued a joint memorandum to Federal agency heads that identifies nanotechnology as a research priority area for Federal investment in fiscal year 2001. This report charts "Nanotechnology Research Directions," as developed by the Interagency W orking Group on Nano Science, Engineering, and Technology (IWGN) of the National Science and Technology Council (NSTC). The report incorporates the views of leading experts from government, academia, and the private sector. It reflects the consensus reached at an IWGN-sponsored workshop held on January 27-29, 1999, and detailed in contributions submitted thereafter by members of the V. S. science and engineering community. (See Appendix A for a list of contributors.
Engineers and ethicists participated in a workshop to discuss the responsible development of new technologies. Presenters examined four areas of engineering-sustainability, nanotechnology, neurotechnology, and energy-in terms of the ethical issues they present to engineers in particular and society as a whole. Approaches to ethical issues include: analyzing the factual, conceptual, application, and moral aspects of an issue; evaluating the risks and responsibilities of a particular course of action; and using theories of ethics or codes of ethics developed by engineering societies as a basis for decision making. Ethics can be built into the education of engineering students and professionals, either as an aspect of courses already being taught or as a component of engineering projects to be examined along with research findings. Engineering practice workshops can also be effective, particularly when they include discussions with experienced engineers. This volume includes papers on all of these topics by experts in many fields. The consensus among workshop participants is that material on ethics should be an ongoing part of engineering education and engineering practice.
Nanotechnology provides tools for creating functional materials, devices, and systems by controlling materials at the atomic and molecular scales and making use of novel properties and phenomena. Nanotechnology-enabled sensors find applications in several fields such as health and safety, medicine, process control and diagnostics. This book provides the reader with information on how nanotechnology enabled sensors are currently being used and how they will be used in the future in such diverse fields as communications, building and facilities, medicine, safety, and security, including both homeland defense and military operations.
Global advances in medicine, food, water, energy, microelectronics, communications, defense, and other important sectors of the economy are increasingly driven by discoveries in nanoscience and the development of nanotechnologies. Engaging the nanoscience and technology community in the crafting of national priorities, developing novel approaches for translating fundamental discovery to a technology readiness level appropriate for venture/industry funding, increasing domestic student interest in nanoscience to expand the workforce pipeline, and exploring new ways of coordinating the work of the National Nanotechnology Initiative (NNI) are all imperatives if the United States is to fully reap the societal benefits of nanotechnology. A Quadrennial Review of the National Nanotechnology Initiative provides a framework for a redesign of the NNI and its coordination with the goal of achieving a U.S. resurgence in nanotechnology. This report makes recommendations to improve the value of the NNI's research and development strategy and portfolio to the economic prosperity and national security of the United States.