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This book defines the application of Information Technology’s systematic and automated knowledge mapping methodology to collect, analyze and report nanotechnology research on a global basis. The result of these analyses is be a systematic presentation of the state of the art of nanotechnology, which will include basic analysis, content analysis, and citation network analysis of comprehensive nanotechnology findings across technology domains, inventors, institutions, and countries.
This paper examines the role of intellectual property and other innovation incentives in the development of one field of breakthrough innovation: nanotechnology. Because nanotechnology is an enabling technology across a wide range of fields, the nanotechnology innovation ecosystem appears to be a microcosm of the global innovation ecosystem. Part I describes the nature of nanotechnology and its economic contribution, Part II explores the nanotechnology innovation ecosystem, and Part III focuses on the role of IP systems in the development of nanotechnology.
New York's Nanotechnology Model: Building the Innovation Economy is the summary of a 2013 symposium convened by the National Research Council Board on Science, Technology, and Economic Policy and members of the Nano Consortium that drew state officials and staff, business leaders, and leading national figures in early-stage finance, technology, engineering, education, and state and federal policies to review challenges, plans, and opportunities for innovation-led growth in New York. The symposium participants assessed New York's academic, industrial, and human resources, identified key policy issues, and engaged in a discussion of how the state might leverage regional development organizations, state initiatives, and national programs focused on manufacturing and innovation to support its economic development goals. This report highlights the accomplishments and growth of the innovation ecosystem in New York, while also identifying needs, challenges, and opportunities. New York's Nanotechnology Model reviews the development of the Albany nanotech cluster and its usefulness as a model for innovation-based growth, while also discussing the New York innovation ecosystem more broadly.
Innovation in Nano-polysaccharides for Eco-sustainability: From Science to Industrial Applications presents fundamentals, advanced preparation methods, and novel applications for polysaccharide-based nanomaterials. Sections cover the fundamental aspects of polysaccharides and nano-polysaccharides, including their structure and properties, surface modification, processing and characterization. Key considerations are explained in detail, including the connection between the substituents of polysaccharides and their resulting physical properties, renewable resources, their sustainable utilization, and specific high value applications, such as pharmaceuticals, photocatalysts, energy, and wastewater treatment, and more. This is a valuable resource for researchers, scientists, and advanced students across bio-based polymers, nanomaterials, polymer chemistry, sustainable materials, biology, materials science and engineering, and chemical engineering. In industry, this book will support scientists, R&D, and engineers looking to utilize bio-based materials in advanced industrial applications. Covers the fundamentals, mechanisms, preparation methods, unique properties and performance of nano-polysaccharide materials Explores sustainable applications of nano-polysaccharides in areas such as pharmaceuticals, energy and wastewater treatment Addresses key challenges, including the implementation of sustainable concepts in chemical design and paths to scalability and commercialization
This book defines 'nanowares' as the ideas and products arising out of nanotechnology. Koepsell argues that these rapidly developing new technologies demand a new approach to scientific discovery and innovation in our society. He takes established ideas from social philosophy and applies them to the nanoparticle world. In doing so he breaks down the subject into its elemental form and from there we are better able to understand how these elements fit into the construction of a more complex system of products, rules and regulations about these products. Where existing research in the field has tended to focus on potential social harm, Koepsell takes a different approach by looking at ways in which developments in distributed design and fabrication can be harnessed to enable wealth creation by those with good ideas but no access to capital. He argues that the key challenge facing us is the error implicit in current intellectual property regimes and presents new modes of relating inventors to artifacts in this new context. In conclusion he offers contractual models which he believes encourage innovation in nano-media by embracing open source and alternative means of protection for innovators.
Nanomaterials represent a world of new possibilities and exciting opportunities. The problems facing mankind currently and those it will face in the future are and will be incredibly complex. As such, novel and innovative solutions to these problems will have to be explored. Problems centered, for example, in supplying enough energy or water in the future will have to be solved via sustainable solutions, as it is now clear that the continuation of current practices for an ever-increasing load will mean irreparable damage to the planet. The solutions to these challenges and others will have to be based on new approaches. These novel approaches will have their foundations in the development of new materials and protocols. The rise of nanotechnology over the last fifteen years or so now provides the opportunity for development of innovative and ground breaking approaches to society's pressing problems. This book provides a snapshot of the current development of new materials, ranging from nanoparticles to nanotubes to graphene to various hybrid materials and composites. These materials will without a doubt be the cornerstones of the novel approaches used to tackle mankind's most pressing problems in the 21st century. Specifically, this book explores the application of graphene in membranes, electrodes, biological applications and catalysis. There is also a basic exploration of nanocarbon chemistry. Biological interactions with nanomaterials are explored to develop bionics, sensors, medicines or imaging agents, and to detect and assess the materials' toxicity in various environments. Some fundamental work exploring nanostructures and transport properties is included and the use for such material as sensors, membranes or electrodes is discussed extensively.
This book is available as open access through the Bloomsbury Open Access programme and is available on www.bloomsburycollections.com. This book defines 'nanowares' as the ideas and products arising out of nanotechnology. Koepsell argues that these rapidly developing new technologies demand a new approach to scientific discovery and innovation in our society. He takes established ideas from social philosophy and applies them to the nanoparticle world. In doing so he breaks down the subject into its elemental form and from there we are better able to understand how these elements fit into the construction of a more complex system of products, rules and regulations about these products. Where existing research in the field has tended to focus on potential social harm, Koepsell takes a different approach by looking at ways in which developments in distributed design and fabrication can be harnessed to enable wealth creation by those with good ideas but no access to capital. He argues that the key challenge facing us is the error implicit in current intellectual property regimes and presents new modes of relating inventors to artifacts in this new context. In conclusion he offers contractual models which he believes encourage innovation in nano-media by embracing open source and alternative means of protection for innovators.
Applied Nanotechnology takes an integrated approach to the scientific, commercial and social aspects of nanotechnology, exploring: The relationship between nanotechnology and innovation The changing economics and business models required to commercialize innovations in nanotechnology Product design case studies Applications in various sectors, including information technology, composite materials, energy, and agriculture The role of government in promoting nanotechnology The potential future of molecular self-assembly in industrial production In this 2e, new chapters have been added on energy applications and the role of nanotechnology in sustainability. The section on the safety of nanoproducts has also been updated, and material on funding and commercialization has been updated and expanded, with new case studies illustrating the experience of new startups in a challenging economic environment. A route map for the commercialization of nanotechnology research Discusses product design challenges, regulatory issues, and ethical and social implications of nanotechnology Features new case studies on nanotechnology startups in challenging economic times
With its assessment and linking of study reports into a coherent narrative, this book accurately describes the technological and economic opportunities of nanotechnology in all important sectors of industry affected. As such, it provides an in depth-analysis within the context of product groups and lead markets on the international level, with the focus on Germany. Much cited internationally, Gerd Bachmann applies a so-called method mix to avoid the weaknesses of other studies conducted purely using quantitative research methods, which leave too many white spots to enable an accurate analysis. Also includes proofs for market potential based on patent data.