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Nanotechnology
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Nanotechnology

Nanotechnology focuses on the design and creation of functional materials, structures, devices and systems by directly controlling matter at the nano-level.

Nanotechnology focuses on the design and creation of functional materials, structures, devices and systems by directly controlling matter at the nano-level, as well as the exploitation of novel phenomena and properties occurring at this level. In general, "nano-level" is defined as being smaller than 100 nanometres, depending on the physical and chemical characteristics of the particular system that undergoes quantitative and qualitative changes when the length scale boundary is crossed.

Nanotechnology research and development includes the controlled manipulation of nano-scale structures and their integration into larger material components, systems and architectures. Within these larger scale assemblies, the control and construction of their structure and components continue to be at the nano-level. In nanotechnology, it is essential to have direct control of matter whether between two nano-level objects or between a micro/macro-level object and a nano-level object.

this programme has no specializations
program name Nanotechnology (MSc)
forms full-time
# credits 120 EC
tuition fee
2011-2012
statutory tarief fulltime
 €1713
institutional rate fulltime
 €12500

2012-2013
statutory tarief fulltime
 €1771
institutional rate fulltime
 €12650
languages 100% English

 

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Nanotechnology
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Nanotechnology aims at the design and creation of functional materials, structures, devices and systems through direct control of matter on the nanometer length scale and exploitation of novel phenomena and properties on this length scale. The length scale is usually defined as being smaller than 100 nm, depending on the physical and chemical characteristics of the particular system that undergoes quantitative and qualitative changes when the length scale boundary is crossed.

Nanotechnology research and development includes manipulation under control of the nanoscale structures and their integration into larger material components, systems and architectures. Within these larger scale assemblies, the control and construction of their structures and components remains at the nanometer scale. Essential in nanotechnology is to have a direct control of matter either between two nano-objects, or between a micro (or macro) object and a nano-object.