Nanomaterials have the potential to contribute to more sustainable manufacturing through cleaner, less wasteful production processes and can substitute conventional materials, leading to savings in raw materials and energy. This book provides an innovative perspective by establishing connections between the subject areas associated with nanotechnology and by bridging academic and industrial research. It also covers methods for assessing the sustainability of nanotechnology-based products and processes using life-cycle analysis, taking into account material and energy consumption during manufacture, use, and final disposal and/or recycling.…mehr
Nanomaterials have the potential to contribute to more sustainable manufacturing through cleaner, less wasteful production processes and can substitute conventional materials, leading to savings in raw materials and energy. This book provides an innovative perspective by establishing connections between the subject areas associated with nanotechnology and by bridging academic and industrial research. It also covers methods for assessing the sustainability of nanotechnology-based products and processes using life-cycle analysis, taking into account material and energy consumption during manufacture, use, and final disposal and/or recycling.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
David G. Rickerby, PhD, is a senior scientific officer in the Institute for Environment and Sustainability at the European Commission Joint Research Centre, Ispra, Italy. After earning a doctoral degree from the University of Cambridge, he carried out postdoctoral research at the Pennsylvania State University. His present research interests involve evaluation of the potential risks and benefits of nanotechnologies, including development of risk assessment tools and methodologies. He was one of the group of international experts who coauthored a chapter on nanotechnology and the environment for the UNEP GEO Year Book and is a member of the OECD Working Party on Manufactured Nanomaterials, Steering Group 9 on the Environmentally Sustainable Use of Nanotechnology.
Inhaltsangabe
Introduction. Nanotechnology in Electronics. Photovoltaics and Nanotechnology: From Innovation to Industry. How Nanotechnologies Can Enhance Sustainability in the Agrifood Sector. Biological Production of Nanocellulose and Potential Application in Agricultural and Forest Product Industry. Applications of Nanotechnology in Aerospace. Applications of Nanomaterials in Fuel Cells. Nanostructured Metal Oxide Catalysts. Solar Photocatalytic Drinking Water Treatment for Developing Countries. Applications of Nanotechnology in the Building Industry . Anticipatory Life-Cycle Assessment of SWCNT-Enabled Lithium Ion Batteries. Life-Cycle Assessment of Nanotechnology-Based Applications. Index.
Introduction. Nanotechnology in Electronics. Photovoltaics and Nanotechnology: From Innovation to Industry. How Nanotechnologies Can Enhance Sustainability in the Agrifood Sector. Biological Production of Nanocellulose and Potential Application in Agricultural and Forest Product Industry. Applications of Nanotechnology in Aerospace. Applications of Nanomaterials in Fuel Cells. Nanostructured Metal Oxide Catalysts. Solar Photocatalytic Drinking Water Treatment for Developing Countries. Applications of Nanotechnology in the Building Industry . Anticipatory Life-Cycle Assessment of SWCNT-Enabled Lithium Ion Batteries. Life-Cycle Assessment of Nanotechnology-Based Applications. Index.
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