Difference between revisions of "ENP Safety Projects"
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The EU FP7 large-scale integrating project NanoValid (contract: 263147) has been launched on the 1st of November 2011, as one of the "flagship" nanosafety projects. The project consists of 24 European partners from 14 different countries and 6 partners from Brazil, Canada, India and the US and will run from 2011 to 2015, with a total budget of more than 13 mio EUR (EC contribution 9.6 mio EUR). Main objective of NanoValid is to develop a set of reliable reference methods and materials for the fabrication, physicochemical (pc) characterization, hazard identification and exposure assessment of engineered nanomaterials (EN), including methods for dispersion control and labelling of ENs. Based on newly established reference methods, current approaches and strategies for risk and life cycle assessment will be improved, modified and further developed, and their feasibility assessed by means of practical case studies. | The EU FP7 large-scale integrating project NanoValid (contract: 263147) has been launched on the 1st of November 2011, as one of the "flagship" nanosafety projects. The project consists of 24 European partners from 14 different countries and 6 partners from Brazil, Canada, India and the US and will run from 2011 to 2015, with a total budget of more than 13 mio EUR (EC contribution 9.6 mio EUR). Main objective of NanoValid is to develop a set of reliable reference methods and materials for the fabrication, physicochemical (pc) characterization, hazard identification and exposure assessment of engineered nanomaterials (EN), including methods for dispersion control and labelling of ENs. Based on newly established reference methods, current approaches and strategies for risk and life cycle assessment will be improved, modified and further developed, and their feasibility assessed by means of practical case studies. | ||
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== MARINA == | == MARINA == | ||
Revision as of 14:18, 27 July 2015
NanoSafetyCluster
http://www.nanosafetycluster.eu/
The EU NanoSafety Cluster is a DG RTD NMP initiative to maximise the synergies between the existing FP6 and FP7 projects addressing all aspects of nanosafety including toxicology, ecotoxicology, exposure assessment, mechanisms of interaction, risk assessment and standardisation.
Participation in the NanoSafety cluster is voluntary for projects that commenced prior to April 2009, and is compulsory for nano-EHS projects started since April 2009.
The terms of reference of the NanoSafety Cluster define its role and are included as an appendix to all new projects.
NanoValid
The EU FP7 large-scale integrating project NanoValid (contract: 263147) has been launched on the 1st of November 2011, as one of the "flagship" nanosafety projects. The project consists of 24 European partners from 14 different countries and 6 partners from Brazil, Canada, India and the US and will run from 2011 to 2015, with a total budget of more than 13 mio EUR (EC contribution 9.6 mio EUR). Main objective of NanoValid is to develop a set of reliable reference methods and materials for the fabrication, physicochemical (pc) characterization, hazard identification and exposure assessment of engineered nanomaterials (EN), including methods for dispersion control and labelling of ENs. Based on newly established reference methods, current approaches and strategies for risk and life cycle assessment will be improved, modified and further developed, and their feasibility assessed by means of practical case studies.
MARINA
The aim of MARINA is to develop and validate the Risk Management Methods for Nanomaterials.
To do this, MARINA will address the four central themes for the Risk Assessment and Management of Nanomaterials: Materials, Exposure, Hazard, and Risk. In MARINA we will develop beyond state-of-the-art referential tools from each of these themes and integrate them into a Risk Management Toolbox and Strategy for both human and environmental health.
There is a need to evaluate and develop specific reference methods for all the fundamental steps in managing the potential risk of ENM. The methods must be integrated in an overarching, coherent strategy for regulators and industry to adapt them. Thus, a safe and environmentally responsible nanotechnology will safeguard current and future global investments and will be the key to the sustainability of this industry.
QualityNano
Welcome to QualityNano: the European Union-funded infrastructure for Quality in nanomaterials safety testing. This four year project integrates 28 top European analytical & experimental facilities in nanotechnology, medicine and natural sciences with the goal of developing and implementing best practice and quality in all aspects of nanosafety assessment.
