Nanotech: What future for nano in Europe?

Nanotechnology deals with particles which are invisible to the eye, but policy issues surrounding the technology are looming large. Nanotechnology opens a raft of opportunities for European business and consumers. How can the continent address public concerns with safety issues and novel technology to ensure that Europe does not get left behind in the nano race? How far has industry gone to explain the possibilities opened up by nano-applications? How can nano-substances help in a range of sectors? How could nano-substances improve the resource and energy efficiency of packaging manufacturing? Can nano-materials revolutionise the age-old difficulty of ensuring clean drinking water? The EU Commission has published a recommendation for a definition for nanomaterials. How do regulation and public opinion influence the development of nano applications and what kind of regulation should we have?
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New Nano Science Technology 2011 (The Future)

Welcome to the nano scale. Nanoscale is where properties differ significantly from those at a larger scale. The strange world of nanoscience can take you into atoms and beyond the stars. A new horizon has begun for mankind in creating new technologies and one day eradicating diseases. That water bottle that turns urine into drink water could help drought stricken countries, instead of a little water bottle maybe a water tank version? Introduction to Nanoscience What is nanoscience? The word itself is a combination of nano, from the Greek “nanos” (or Latin “nanus”), meaning “Dwarf”, and the word “Science.” Nano refers to the 10-9 power, or one billionth. In these terms it refers to a meter, or a nanometer, which is on the scale of atomic diameters. For comparison, a human hair is about 100000 nanometers thick! Nanoscience is the study of atoms, molecules, and objects whose size is on the nanometer scale ( 1 – 100 nanometers ). Why is the study of nanoscience different than the same problems on a larger scale? Physics is different on the nanometer scale. Properties not seen on a macroscopic scale now become important- such as quantum mechanical and thermodynamic properties. Rather than working with bulk materials, one works with individual atoms and molecules. By learning about an individual molecule’s properties, we can put them together in very well-defined ways to produce new materials with new and amazing characteristics. Why is nanoscience suddenly becoming such a big
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