Nanomanufacturing — Publications
Designing for nano-aware individuals in both the public and private sectors, this volume - the first of its kind - provides a concise, readable resource on the nanoscience education and workforce development in the field. The first part of the book provides a historical perspective on the complexity of K-12 education communities, while presenting inspiring examples of successful changes, including a definition of nanotechnology and a broad evaluation of the global and national landscapes of the field. The second section, Teaching Nanotechnology, turns to the critical process of teaching K-12 students the skills to understand and evaluate emerging technologies they will encounter in the future. The third part investigates the current status of developed teaching materials with links to all resources, evaluating the U.S. model and comparing with others around the world. The last section considers plans of action, offering links to sustainable development tools. It is a book designed to enhance awareness, review the facts, and fabricate a platform from which to launch a plan.
Akhlesh Lakhtakia, one of the contributors to this volume, was recently featured on CNN in a discussion on solar energy.
Many recent advances in technology have been associated with nanotechnology and the miniaturization of components, devices and systems. Microjoining has been closely associated with the evolution of microelectronic packaging, but actually covers a much broader area, and is essential for manufacturing many electronic, precision and medical products.
Part 1 reviews the basics of microjoining, including solid-state bonding and fusion microwelding. Part 2 covers microjoining and nanojoining processes, such as bonding mechanisms and metallurgy, process development and optimization, thermal stresses and distortion, positioning and fixturing, sensing, and numerical modelling. Part 3 discusses microjoining of materials such as plastics, ceramics, metals and advanced materials such as shape memory alloys and nanomaterials. The book also discusses applications of microjoining such as joining superconductors, the manufacture of medical devices and the sealing of solid oxide fuel cells.
This book provides a comprehensive overview of the fundamental aspects of microjoining processes and techniques. It will be a valuable reference for production engineers, designers and researchers using or studying microjoining technologies in such industries as microelectronics and biomedical engineering.
Micro-nanotechnologies (MNT) are already making a profound impact on our daily lives. New applications are well underway in the US, Asia, and Europe. However, their potentially disruptive nature, along with the public's concerns, has produced a number of challenges. Commercializing Micro-Nanotechnology Products provides a snapshot of the current market situation and details the need for MNT development. It outlines the problems facing today's businesses and discusses the processes for commercialization, road mapping, technology transfer analysis, and entrepreneurial development.
The book begins by detailing the steps required to turn an idea into a marketable product. The editors give examples of previously successful products and relate to their own experiences in development. Next, the text focuses on the importance of entrepreneurship and the required steps to finance and develop a marketing strategy. It contains various definitions of nanotechnology and how each relates to roadmap and production issues. Three detailed case studies from the leading MNT development and manufacturing companies describe how each venture started and progressed to become a market leader. These studies offer valuable insight into overcoming the challenges related to achieving financial backing and specifying the right product for development.
This reference provides the only insightful appraisal of the current status of micro-nanotechnology products. It describes a concise process for product commercialization, from market research to end product realization. Commercializing Micro-Nanotechnologies provides a clear strategy for choosing the right product to development and overcoming challenges in the growing global market.
Nanotechnology, seen as the next leap forward in the industrial revolution, requires that manufacturers develop processes that revolutionize the way small products are made. Microfabrication and Nanomanufacturing focuses on the technology of fabrication and manufacturing of engineering materials at these levels.
The book provides an overview of techniques used in the semiconductor industry. It also discusses scaling and manufacturing processes operating at the nanoscale for non-semiconductor applications; the construction of nanoscale components using established lithographic techniques; bulk and surface micromachining techniques used for etching, machining, and molding procedures; and manufacturing techniques such as injection molding and hot embossing.
This authoritative compilation describes non-traditional micro and nanoscale processing that uses a newly developed technique called pulsed water jet machining as well as the efficient removal of materials using optical energy. Additional chapters focus on the development of nanoscale processes for producing products other than semiconductors; the use of abrasive particles embedded in porous tools; and the deposition and application of nanocrystalline diamond. Economic factors are also presented and concern the promotion and commercialization of micro and nanoscale products and how demand will eventually drive the market.
Breakthroughs in nanotechnology have been coming at a rapid pace over the past few years. This was fueled by significant worldwide investments by governments and industry. But if these promising young technologies cannot begin to show commercial viability soon, that funding is in danger of disappearing as investors lose their appetites and the economic and scientific promise of nanotechnology may not be realized. Scrutinizing the barriers to commercial scale-up of nanotechnologies, the Nanomanufacturing Handbook presents a broad survey of the research being done to bring nanotechnology out of the laboratory and into the factory.
Current research into nanotechnology focuses on the underlying science, but as this forward-looking handbook points out, the immediate need is for research into scale-up, process robustness, and system integration issues. Taking that message to heart, this book collects cutting-edge research from top experts who examine such topics as surface-programmed assembly,fabrication and applications of single-walled carbon nanotubes (SWNTs) including nanoelectronics, manufacturing nanoelectrical contacts, room-temperature nanoimprint and nanocontact technologies, nanocontacts and switch reliability, defects and surface preparation, and other innovative, application-driven initiatives. In addition to these technical issues, the author provides a survey of the current state of nanomanufacturing in the United States-the first of its kind-and coverage also reaches into patenting nanotechnologies as well as regulatory and societal issues.
With timely, authoritative coverage accompanied by numerous illustrations, the Nanomanufacturing Handbook clarifies the current challenges facing industrial-scale nanotechnologies and outlines advanced tools and strategies that will help overcome them.
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