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200 04$aThe nano-micro interface$h2 Volume Set $ebridging the micro and nano worlds /$fedited by Marcel Van de Voorde, Matthias Werner, and Hans-Jorg Fecht
205   $a2nd ed.
210  1$aWeinheim, Germany :$cWiley-VCH Verlag,$d2015.
210  4$dİ2015
215   $a1 online resource (749 p.)
300   $aDescription based upon print version of record.
311   $a1-322-58834-1 
311   $a3-527-33633-8 
320   $aIncludes bibliographical references and index.
327   $aThe Nano-Micro Interface; Contents; Foreword; Acknowledgment; List of Contributors; Introduction; Volume 1; Part I Nanotechnology Research Funding and Commercialization Prospects - Political, Social and Economic Context for the Science and Application of Nanotechnology; Chapter 1 A European Strategy for Micro- and Nanoelectronic Components and Systems; 1.1 Introduction; 1.2 Why are Micro- and Nanoelectronics Essential for Europe?; 1.2.1 An Important Industry with a Significant Potential for Growth and a Massive Economic Footprint; 1.2.2 A Key Technology for Addressing the Societal Challenges
327   $a1.3 A Changing Industrial Landscape for Micro- and Nanoelectronics1.3.1 Technology Progress Opens New Opportunities; 1.3.2 Escalating R&D&I Costs and a More Competitive R&D&I Environment; 1.3.3 New Business and Production Models; 1.3.4 Equipment Manufacturers Own Key Elements of the Value Chain; 1.4 Europe's Strengths and Weaknesses; 1.4.1 Industry Structured around Centers of Excellence and Wider Supply Chains Covering all Europe; 1.4.2 Leading in Essential Vertical Markets, Almost Absent in Some Large Segments; 1.4.3 Undisputed European Leadership in Materials and Equipment
327   $a1.4.4 Investments of EU Companies Remain Relatively Modest1.5 European Efforts So Far; 1.5.1 Regional and National Efforts Reinforcing the Clusters of Excellence; 1.5.2 A Growing and More Coordinated Investment in R&D&I  at EU Level; 1.5.3 Technology Breakthroughs but Gaps in the Innovation Chain; 1.6 The Way Forward - A European Industrial Strategy; 1.6.1 Objective: Reverse the Decline of EU's Share of World's Supply; 1.6.2 Focus on Europe's Strengths, Build on and Reinforce Europe's Leading Clusters; 1.6.3 Seize Opportunities Arising in Non-conventional Fields and Support SMEs Growth
327   $a1.7 The Actions1.7.1 Towards a European Strategic Roadmap for Investment  in the Field; 1.7.2 The Joint Technology Initiative: A Tripartite Model for Large-Scale Projects; 1.7.3 Building on and Supporting Horizontal Competitiveness Measures; 1.7.4 International Dimension; 1.8 Conclusions; Annex 1.A; References; Chapter 2 Governmental Strategy for the Support of Nanotechnology in Germany; 2.1 Introduction; 2.2 Future Options; 2.3 From Basic Science Funding to the Nanotechnology Action Plan; 2.4 Funding Situation 2011; 2.5 Patent Applications in Nanotechnology: An International Comparison
327   $a2.6 Innovation Accompanying Measures2.6.1 Outreach and Citizen Dialogues; 2.6.2 Chances - Risks Communication; 2.6.3 Database for Nanomaterials; 2.6.4 Education; 2.7 Involved Organizations; 2.8 Cooperation of the Governmental Bodies; 2.9 International Cooperation; 2.9.1 Research Marketing; 2.9.2 Activities within the Framework of the European Union; 2.10 Activities within the Framework of the Organization for Economic Cooperation and Development (OECD); References; Chapter 3 Overview on Nanotechnology R&D and Commercialization in the Asia Pacific Region; 3.1 Introduction
327   $a3.2 Public Investments
330   $aControlling the properties of materials by modifying their composition and by manipulating the arrangement of atoms and molecules is a dream that can be achieved by nanotechnology. As one of the fastest developing and innovative -- as well as well-funded -- fields in science, nanotechnology has already significantly changed the research landscape in chemistry, materials science, and physics, with numerous applications in consumer products, such as sunscreens and water-repellent clothes. It is also thanks to this multidisciplinary field that flat panel displays, highly efficient solar cells, a
606   $aNanotechnology
606   $aMicrotechnology
606   $aBiomimicry
606   $aBiomimetic materials
615  0$aNanotechnology.
615  0$aMicrotechnology.
615  0$aBiomimicry.
615  0$aBiomimetic materials.
676   $a620.5
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906   $aBOOK
912   $a9910132294903321
996   $aThe nano-micro interface$92210145
997   $aUNINA