PROJECT TITLE: Investigation of semiconductor oxide materials performance for space environment applications - MATSPACE

Coordinator: National Institute for Research and Development in Microtechnologies-IMT Bucharest


Period: 29 November 2013 - 15 December 2015

Project director: Dr. Rodica Plugaru, senior researcher CSI

Project team: WP1 /19 PM, WP2/53 PM, WP3/21PM, WP4/29PM

Working groups from CO and P1 comprise key researchers with recognized expertise and publications in the field of physics, chemistry, materials engineering and electrical engineering.

Working group from P2-EBIC S.A. includes engineers with expertise in aeronautical equipment.

Description: Space radiation effects on emerging electronic materials are investigated in order to increase radiation hardness of future electronics. Such devices are expected to provide assurance capabilities for the systems in space applications.

Space radiation environment:

- ionizing radiation (high energy ions, ~ MeV);

- electromagnetic radiation (from solar flares);

- particles trapped by the Earth magnetic field (Van Allen belt).

The project focuses on ZnO based materials, including thin films andnanostructured arrays for advanced nanoelectronics, optoelectronics, transparent

electronics, UV high performance photodetectors, solar cells, sensors.

Essentially, the effects of various radiation fields on ZnO based materials are scarcely characterized.

Project objectives:


Contributions to the STAR programme objectives:

The project's results will contribute to fulfilling the specific objectives of the Research, Development and Innovation programme Space technology and advanced research, namely the development of technologies, system, sensors and equipment for space applications and foresees the priority domains optical detectors and solar cells for ESA missions.

The project results will bring contributions to evaluation of the radiation response of candidate materials and devices for space applications.

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