Edukad projektid

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partner country [ FI

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INnovative chemIcal sensors for enanTioselective detectIon of chiral pOllutants

acronym: INITIO
start: 2019-01-01
end: 2021-12-31
 
programme: H2020 - Horisont 2020
sub-programme: FET - Tulevased ja kujunemisjärgus tehnoloogiad
instrument: RIA
call identifier: H2020-FETOPEN-2018-2019-2020-01
project number: 828779
duration in months: 36
partner count: 9
 
abstract: Chiral pollution is an environmental topic of crucial importance, considering that a large number of chemicals spreading into the environment, for example pesticides, are chiral substances. However, usually the stereoisomerism of contaminants is not considered, although the biological activity of enantiomers is significantly different, making their recognition critical for environmental control. Enantiomeric excess is currently determined by off-site analysis, requiring collection, transportation, eventual pre-treating of the sample, and expensive instrumentations and specifically trained staff. Thus, providing devices able to allow for rapid on site detection and chiral discrimination of target analytes would have a dramatic impact in all the fields of environmental control with significant economic benefits. The development of chemical sensors has been conceived to bypass restrictions related to classical analytical protocols and supports the use of conventional laboratory techniques for environmental control. While the technological foundation for chemical sensors already exists, it has been difficult to apply them to chiral discrimination and analysis, due to the lack of suitable solid state receptors. The main aims of the project are: a) the development of novel molecular receptors, mainly based on porphyrin derivatives, b) integration of the receptors with different nanostructures and characterization of their solid state organization, c) deposition of the structures onto transducer surfaces, d) testing and validation of the new chemical sensor devices with enantiomeric pairs of model analytes. The synergistic complementary know-how of six academic units and two private companies will allow a breakthrough development through delivery of sensing probes ranging from the synthesis of macrocyclic molecular receptors to the building and testing of analytical and electronic parts for final, field-capable devices.
partner no and role partner name country contact person web page
1 coordinator UNIVERSITA DEGLI STUDI DI ROMA TOR VERGATA IT Roberto PAOLESSE www.web.uniroma2.it
2 partner JYVASKYLAN YLIOPISTO FI http://www.jyu.fi
3 partner Tallinna Tehnikaülikool EE http://www.ttu.ee
4 partner THE PROVOST, FELLOWS, FOUNDATION SCHOLARS & THE OTHER MEMBERS OF BOARD OF THE COLLEGE OF THE HOLY & UNDIVIDED TRINITY OF QUEEN E IE www.tcd.ie
5 partner UNIVERSITA DEL SALENTO IT www.unisalento.it
6 partner CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS FR www.cnrs.fr
7 partner INTERSPECTRUM OU EE www.interspectrum.ee
8 partner EUROPEAN CHEMICAL MANAGEMENT ITALIASOCIETA A RESPONSABILITA LIMITATAABBREVIABILE IN EUROCHEM SRL IT www.consulenzaambientale.org