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Nanotechnologies are tools that measure and manipulate phenomena and objects at the nanoscale. Molecular manufacturing is the willful use of these two activities to create new objects or phenomena. The question of whether it is possible to achieve a stage in the foreseeable future when molecular manufacturing using nanotechnologies might be viable, and if so how to develop the field, is a point of contention in both scientific and policy circles. A framework for understanding the scope of this topic--possible benefits, development risks, and policy options--is presented, but it is not the intention of the authors to provide a definitive road map for future scientific and technological development; nor is it believed by the authors that such a detailed analysis would at present yield a fully credible road map given the immature nature of the field. Rather, it is the contention of this report that though important breakthroughs have been realized, much significant basic and applied research remains to be undertaken to realistically assess the far-term viability of many of the emerging concepts. However, a careful and objective technology feasibility assessment could help stimulate near-term interim achievements of great merit while preventing technological surprises from foreign players.
The editors, both leaders in the nanotechnology field, take readers to the front lines of this exciting new field and discuss actual applications of nanotechnology being used in a variety of industries today--including computer design, materials, and biochemistry.
Nanotechnology is the minisaturisation of technology to the billionth of a meter (the nanometer) to the molecular level. It is the design and manufacturing of intelligent miniature machines, programmed to perform specific tasks. Nanoscience and technology are emerging arenas of research and development with tremendous potential to improve the human condition along with some real possibilities of significantly worsening mankindýs situation. The emergence of nanoscience portends a revolution in technology that will soon impact virtually every facet of our technological lives. Yet there is little understanding of what it is among the public and often among scientists and engineers in other disciplines. The present publication is an introductory text on manotechnology, covering all basic aspects, including molecular nanotechnology, nanomaterials, nanopowders, nanoelectronics, optics, photonics, solar energy and nanobiomimetrics. It provides a scientifically sound treatment accessible, students and all who are interested in ýthe technology of the futureý.
A fascinating and informative look at state-of-the-art nanotechnology research, worldwide, and its vast commercial potential Nanotechnology Commercialization: Manufacturing Processes and Products presents a detailed look at the state of the art in nanotechnology and explores key issues that must still be addressed in order to successfully commercialize that vital technology. Written by a team of distinguished experts in the field, it covers a range of applications notably: military, space, and commercial transport applications, as well as applications for missiles, aircraft, aerospace, and commercial transport systems. The drive to advance the frontiers of nanotechnology has become a major global initiative with profound economic, military, and environmental implications. Nanotechnology has tremendous commercial and economic implications with a projected $ 1.2 trillion-dollar global market. This book describes current research in the field and details its commercial potential—from work bench to market. Examines the state of the art in nanotechnology and explores key issues surrounding its commercialization Takes a real-world approach, with chapters written from a practical viewpoint, detailing the latest research and considering its potential commercial and defense applications Presents the current research and proposed applications of nanotechnology in such a way as to stimulate further research and development of new applications Written by an all-star team of experts, including pioneer patent-holders and award-winning researchers in nanotechnology The major challenge currently faced by researchers in nanotechnology is successfully transitioning laboratory research into viable commercial products for the 21st century. Written for professionals across an array of research and engineering disciplines, Nanotechnology Commercialization: Manufacturing Processes and Products does much to help them bridge the gap between lab and marketplace.
Nanotechnology, as shortly described as the study of manipulating matter on an atomic and molecular scale, is one of the most dynamic and promising industries, receiving a great deal of attention from researchers, business leaders, investors, and policymakers around the world. In Making It to the Forefront, Nesli Aydogan-Duda has assembled a distinguished group of authors to analyze the particular challenges and opportunities of nanotechnology emergence and management in the developing world. In so doing, they address the issues from several angles, ranging from cultural issues to capital markets, industrial clusters to government policy and legal structure. Drawing from in-depth research and case studies in Turkey, Latin America, India, China, and Iran, and a comparison with the development of the industry in the United states, the authors present a cross-cultural approach, with particular emphasis on the strategic nature of the nanotechnology industry for economic development, consumer welfare, and homeland security. Among the topics they consider are the importance of knowledge transfer from universities to the market and, more generally, the interface between science and its commercialization—and the institutional infrastructure that is necessary to maximize the potential of science and technology. In doing so, the authors provide unprecedented theoretical and empirical contributions to the study of nanotechnology, and, more generally, insight into the complex business, political, and cultural environment that must be established in order for such an industry to thrive in the context of a developing country.
Examines the field of medicine, toxic waste, and production relating how they will revolutionize life in the future.
By manipulating common molecules at high frequency, molecular manufacturing will make these products quickly, inexpensively, and on a large scale. Molecular manufacturing is the key to implementing molecular nanotechnologies, building systems to complex atomic specifications.".
In the second edition of Emerging Nanotechnologies for Manufacturing, an unrivalled team of international experts explores existing and emerging nanotechnologies as they transform large-scale manufacturing contexts in key sectors such as medicine, advanced materials, energy, and electronics. From their different perspectives, the contributors explore technologies and techniques as well as applications and how they transform those sectors. With updated chapters and expanded coverage, the new edition of Emerging Nanotechnologies for Manufacturing reflects the latest developments in nanotechnologies for manufacturing and covers additional nanotechnologies applied in the medical fields, such as drug delivery systems. New chapters on graphene and smart precursors for novel nanomaterials are also added. This important and in-depth guide will benefit a broad readership, from R&D scientists and engineers to venture capitalists. Covers nanotechnology for manufacturing techniques and applications across a variety of industries Explores the latest developments such as nanosuspensions and nanocarriers in drug delivery systems, graphene applications, and usage of smart precursors to develop nanomaterials Proven reference guide written by leading experts in the field
This book covers an exciting new field involving the manipulation of individual atoms and molecules to produce materials and devices with very precise, predictable properties.