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Submit Date Name Organisation Statement of capabilities/facilities
2020-07-27. Manuel Lozano IMB-CNM (CSIC) Institute of Microelectronics in Barcelona (IMB-CNM) has a complete micro and nano fabrication Clean Room. We have experience in designing and fabricating solid state radiation detectors to be used for radon detection.
Instead of using off-the-shelf silicon detectors, which has been designed for other applications, we are developing detectors specifically designed to detect radon disintegration, more precisely, radon progeny disintegration.
2020-07-23. Vladimir Skliarov NSC-IM National measurement standard of Rn-222 volume activity NSC-IM operates a 960 l central radon chamber for traceable calibration of active radon measurement devices. The reference atmosphere is generated by different emanation sources depending on the desired concentration. In addition a two the same size chambers is attached to the main radon chamber. This chamber can either be vented with radon-free air or it can be connected to the radon atmosphere with manual valves. The exchange of the radon-air is supported by some fans. This system is designed to change the concentration in the center chamber very rapidly.
Interest:
- Study on time response of detector;
- Use the new method of reference atmosphere production to produce very fast changes of reference atmosphere concentration;
- Knowledge transfer;
- Perform calibration procedures and methodology for uncertainty evaluation;
- Cooperation with national and international bodies (COOMET, EURAMET, IAEA).
2020-07-02. Carlos Sainz LARUC, University of Cantabria Our research group has experience of over 30 years related with all the aspects related with radon issue, with special focus on radon metrology.

The LARUC of the UC has two major facilities. The main one is the Laboratory of Measurement of Environmental Radioactivity of the University of Cantabria (LARUC), , which is accredited according to the ISO/IEC 17025 for different techniques related with determinations of environmental radioactivity. In addition, the group has an agreement with the National Uranium Company (ENUSA) which allows the use of the facilities of the Natural Radioactivity Laboratory (LNR), located in the uranium mine of Saelices el Chico (Salamanca), where radon measurements, intercomparison exercises and other activities can be carried under realistic field conditions (Naturally changing climatic conditions). This facility is unique in Europe and can play a relevant role in the development of metrological research related with radon.
2020-06-26. Stefan Röttger PTB Calibration sources
2020-06-16. Alexandra Cucos Babes- Bolyai University Our experience of 20 years confirmed both by papers, patents and international projects, we ofer all facilities of our authorized LiRaCC Lab and expertize of our team in next topics: Developing radon control and IAQ technologies for mitigation systems in buildings, Harmonization of energy saving. The development of the ICA+ system which will enable a continuous and interactive monitoring of the most important chemical (radon, VOC, CO, CO2) and material pollutants (PM2.5) present in modern buildings (homes and at workplaces) and outdoor meteorological parameters using an IoT-based system. The developement of IoT-based system is based on the ICA prototype developed and validated by Babes-Bolyai University in the frame of SMART_RAD_EN project, which was certified and tested both in laboratory conditions and in operational environment. The development of a predictive artificial intelligence (AI) module connected to the ICA+ to receive IAQ data and generate proactive prevention strategies.
2020-06-16. Alexandra Cucos Babes- Bolyai University Our experience of 20 years confirmed both by papers, patents and international projects, we ofer all facilities of our authorized LiRaCC Lab and expertize of our team in next topics: Developing radon control and IAQ technologies for mitigation systems in buildings, Harmonization of energy saving. The development of the ICA+ system which will enable a continuous and interactive monitoring of the most important chemical (radon, VOC, CO, CO2) and material pollutants (PM2.5) present in modern buildings (homes and at workplaces) and outdoor meteorological parameters using an IoT-based system. The developement of IoT-based system is based on the ICA prototype developed and validated by Babes-Bolyai University in the frame of SMART_RAD_EN project, which was certified and tested both in laboratory conditions and in operational environment. The development of a predictive artificial intelligence (AI) module connected to the ICA+ to receive IAQ data and generate proactive prevention strategies.

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