Results 1 - 10 of 239
[PROJECT] MIMEFUN - Biomimetics for Functions and Responses
ID: 291364
Start date: 2012-04-01, End date: 2017-03-31
"Energy efficiency and sustainability encourage to develop lightweight materials with excellent mechanical properties, combining also additional functionalities and responses. Therein nature allows inspiration, as e.g. pearl of nacre and silk show extraordinary mechanical pro...
Programme: FP7-IDEAS-ERC
Record Number: 102665
Last updated on: 2015-03-10
To meet the demands for energy saving and to reduce the dependence from petroleum based products, materials scientists quest for ever more tunable, functional, lightweight and sustainable materials. Nature offers inspiration based on several concepts, ranging from excellent...
Programme: FP7-IDEAS-ERC
Record Number: 201941
Last updated on: 2017-07-24
[PROJECT] ARTIVASC 3D - Artificial vascularised scaffolds for 3D-tissue-regeneration
ID: 263416
Start date: 2011-11-01, End date: 2015-10-31
The use of bioartificial tissue for regenerative medicine offers great therapeutic potential, but also has to meet high demands with respect to the interaction of the bioartificial devices and natural tissues. Key issues for the successful use of bioartifical tissues as natur...
Programme: FP7-NMP
Record Number: 101209
Last updated on: 2017-05-26
[PROJECT] ALEM - ADDITIONAL LOSSES IN ELECTRICAL MACHINES
ID: 339380
Start date: 2014-03-01, End date: 2019-02-28
"Electrical motors consume about 40 % of the electrical energy produced in the European Union. About 90 % of this energy is converted to mechanical work. However, 0.5-2.5 % of it goes to so called additional load losses whose exact origins are unknown. Our ambitious aim is to...
Programme: FP7-IDEAS-ERC
Record Number: 185404
Last updated on: 2015-03-11
There are more losses in electrical machines than the conventional methods of analysis predict. Typically these additional losses are about one percentage of the input power. We search for the physical reasons for these additional losses. When the sources of the additional...
Programme: FP7-IDEAS-ERC
Record Number: 199465
Last updated on: 2017-06-21
[PROJECT] MAGDOT - Bridging Atomistic to Continuum - Multiscale Investigation of Self-Assembling Magnetic Dots during Epitaxil Growth
ID: 016447
Start date: 2006-01-01, End date: 2008-12-31
Spontaneous formation of nanostructures through kinetic and thermodynamic morphological instabilities at solid surfaces is increasingly recongnized as an attractive, low-cost alternative to top-down schemes for nanopatterning. We propose an integrated app roach to examine the ...
Programme: FP6-NMP
Record Number: 79826
Last updated on: 2007-07-02
This report consists research projects carried out during the time period April 2012 – September 2014 in ERC 2011-ADG 291364 Mimefun.The main aim of the overall project revolves around the concept of fabricating functional biomimetic structures that combine nanoscale...
Programme: FP7-IDEAS-ERC
Record Number: 179612
Last updated on: 2016-04-25
[REPORT SUMMARY] Final Report Summary - MORDRED (Modelling of the reliability and degradation of next generation nanoelectronic devices)
As the scaling of the CMOS devices approaches its technological and fundamental limits, the replacement of silicon and its native oxide becomes one of the key challenges to sustain the continuous improvement of the IC performance. New semiconductors and...
Programme: FP7-NMP
Record Number: 171620
Last updated on: 2015-10-21
[REPORT SUMMARY] Final Report Summary - MATERA+ (ERA-NET Plus on Materials Research)
Executive Summary:The objective of MATERA+ (ERA-NET Plus on Materials Research) was the launching, management and follow-up of one Joint Call in the field of Materials (MATERA+ Call 2009). The goal of the Call was to launch transnational, interdisciplinary, innovative projects...
Programme: FP7-NMP
Record Number: 153358
Last updated on: 2015-01-14
[REPORT SUMMARY] Final Report Summary - THEMA-CNT (Thermal management with carbon nanotube architectures)
Executive Summary: Executive summaryTo overcome the difficulties in the contemporary thermal management of Si components and packages made of ceramics and organic laminates, in this project we proposed novel and scalable cooling technologies that utilize carbon nanotubes and...
Programme: FP7-NMP
Record Number: 143893
Last updated on: 2014-07-04
List retrieved on: 2017-08-02
