Team:TU-Eindhoven/ICMS
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<!--<h3>Institute for Complex Molecular Systems</h3>--> | <!--<h3>Institute for Complex Molecular Systems</h3>--> | ||
[[File:ICMS logo small.jpg|710px|link=http://www.tue.nl/en/research/research-institutes/top-research-groups/institute-for-complex-molecular-systems/]]<br /><br /> | [[File:ICMS logo small.jpg|710px|link=http://www.tue.nl/en/research/research-institutes/top-research-groups/institute-for-complex-molecular-systems/]]<br /><br /> | ||
- | Mastering complexity requires a deep understanding on how matter – both natural and artificial – self-organizes into functional molecular systems. The Institute for Complex Molecular Systems (ICMS) of the Eindhoven University of Technology (TU/e) was established in 2008 and brings together mathematics, physics, biology, chemistry and engineering to stimulate education and research in this emerging field of science. Interdisciplinarity is the core of ICMS; with the specialized input from leading specialists in different branches of science and engineering, new avenues are explored. The scientific agenda of ICMS is focused around the following topics:<br /> | + | Mastering complexity requires a deep understanding on how matter – both natural and artificial – <span class="darkblue">self-organizes</span> into functional molecular systems. The Institute for Complex Molecular Systems (ICMS) of the Eindhoven University of Technology (TU/e) was established in 2008 and brings together <span class="darkblue">mathematics, physics, biology, chemistry and engineering</span> to stimulate education and research in this emerging field of science. Interdisciplinarity is the core of ICMS; with the specialized input from leading specialists in different branches of science and engineering, new avenues are explored. The scientific agenda of ICMS is focused around the following topics:<br /> |
- | '''1.''' Construction of functional life-like molecular systems.<br /> | + | <span class="darkblue">'''1.'''</span> Construction of functional life-like molecular systems.<br /> |
- | '''2.''' Bridging the gap between natural tissue and artificial materials.<br /> | + | <span class="darkblue">'''2.'''</span> Bridging the gap between natural tissue and artificial materials.<br /> |
- | '''3.''' Catalysis and challenges for future sustainability.<br /> | + | <span class="darkblue">'''3.'''</span> Catalysis and challenges for future sustainability.<br /> |
- | '''4.''' Soft matter: formulation as a science-based technology.<br /> | + | <span class="darkblue">'''4.'''</span> Soft matter: formulation as a science-based technology.<br /> |
- | '''5.''' Particle systems and networks: getting to grips with complex interactions.<br /> | + | <span class="darkblue">'''5.'''</span> Particle systems and networks: getting to grips with complex interactions.<br /> |
- | ICMS hosts the TU/e Advanced Study Centre, an intellectual home to scientists from all over the world, hosting discussions on the theme of complexity and functioning as a breeding ground for new interdisciplinary research. Complemented by the Graduate Program Complex Molecular Systems (MSc and PhD), ICMS offers an ideal training environment for all students and scientists to prepare themselves for a future career in science and engineering in a world of increased complexity. | + | ICMS hosts the TU/e Advanced Study Centre, an intellectual home to scientists from all over the world, hosting discussions on the theme of complexity and functioning as a breeding ground for <span class="darkblue">new interdisciplinary research</span>. Complemented by the Graduate Program Complex Molecular Systems (MSc and PhD), ICMS offers an <span class="darkblue">ideal training environment</span> for all students and scientists to prepare themselves for a future career in science and engineering in a world of increased complexity. |
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Revision as of 19:34, 25 September 2012
Mastering complexity requires a deep understanding on how matter – both natural and artificial – self-organizes into functional molecular systems. The Institute for Complex Molecular Systems (ICMS) of the Eindhoven University of Technology (TU/e) was established in 2008 and brings together mathematics, physics, biology, chemistry and engineering to stimulate education and research in this emerging field of science. Interdisciplinarity is the core of ICMS; with the specialized input from leading specialists in different branches of science and engineering, new avenues are explored. The scientific agenda of ICMS is focused around the following topics:
1. Construction of functional life-like molecular systems.
2. Bridging the gap between natural tissue and artificial materials.
3. Catalysis and challenges for future sustainability.
4. Soft matter: formulation as a science-based technology.
5. Particle systems and networks: getting to grips with complex interactions.
ICMS hosts the TU/e Advanced Study Centre, an intellectual home to scientists from all over the world, hosting discussions on the theme of complexity and functioning as a breeding ground for new interdisciplinary research. Complemented by the Graduate Program Complex Molecular Systems (MSc and PhD), ICMS offers an ideal training environment for all students and scientists to prepare themselves for a future career in science and engineering in a world of increased complexity.