Q2720818 (Q2720818): Difference between revisions
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(Created claim: summary (P836): This project brings together scientists from four academic organisations in an interdisciplinary (chemical synthesis and photocatalysis/catalysis) innovative project, the synthesis of new reversible quinone/hydroquinone-metal photocatalysts/catalysts that selectively catalyse the oxidation/reduction of H2O/O2 to H2O2 and the manufacture of compounds H2O2; fuel pats and aqueous photosynthetics. In addition, H2O2 is a compound that can be used as...) |
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This project brings together scientists from four academic organisations in an interdisciplinary (chemical synthesis and photocatalysis/catalysis) innovative project, the synthesis of new reversible quinone/hydroquinone-metal photocatalysts/catalysts that selectively catalyse the oxidation/reduction of H2O/O2 to H2O2 and the manufacture of compounds H2O2; fuel pats and aqueous photosynthetics. In addition, H2O2 is a compound that can be used as an environmentally friendly energy source, so the production of ‘at source’ H2O2 and the new technologies resulting from this proposal will lead to significant economic and environmental benefits for Cyprus. Young researchers will be trained in depth in modern techniques, in four of the best academic institutions in the world, two universities from Cyprus and two from Greece. In addition, they will acquire all the necessary skills required for jobs in academia, the public sector and industry. The results of this work will be published in high-quality scientific journals, patents and international and local conferences. (English) | |||||||||||||||
| Property / summary: This project brings together scientists from four academic organisations in an interdisciplinary (chemical synthesis and photocatalysis/catalysis) innovative project, the synthesis of new reversible quinone/hydroquinone-metal photocatalysts/catalysts that selectively catalyse the oxidation/reduction of H2O/O2 to H2O2 and the manufacture of compounds H2O2; fuel pats and aqueous photosynthetics. In addition, H2O2 is a compound that can be used as an environmentally friendly energy source, so the production of ‘at source’ H2O2 and the new technologies resulting from this proposal will lead to significant economic and environmental benefits for Cyprus. Young researchers will be trained in depth in modern techniques, in four of the best academic institutions in the world, two universities from Cyprus and two from Greece. In addition, they will acquire all the necessary skills required for jobs in academia, the public sector and industry. The results of this work will be published in high-quality scientific journals, patents and international and local conferences. (English) / rank | |||||||||||||||
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| Property / summary: This project brings together scientists from four academic organisations in an interdisciplinary (chemical synthesis and photocatalysis/catalysis) innovative project, the synthesis of new reversible quinone/hydroquinone-metal photocatalysts/catalysts that selectively catalyse the oxidation/reduction of H2O/O2 to H2O2 and the manufacture of compounds H2O2; fuel pats and aqueous photosynthetics. In addition, H2O2 is a compound that can be used as an environmentally friendly energy source, so the production of ‘at source’ H2O2 and the new technologies resulting from this proposal will lead to significant economic and environmental benefits for Cyprus. Young researchers will be trained in depth in modern techniques, in four of the best academic institutions in the world, two universities from Cyprus and two from Greece. In addition, they will acquire all the necessary skills required for jobs in academia, the public sector and industry. The results of this work will be published in high-quality scientific journals, patents and international and local conferences. (English) / qualifier | |||||||||||||||
point in time: 31 May 2021
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Revision as of 19:26, 31 May 2021
Project Q2720818 in Cyprus
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | No label defined |
Project Q2720818 in Cyprus |
Statements
212,500.0 Euro
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250,000.0 Euro
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85.0 percent
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10 March 2017
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1 March 2022
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University of Cyprus
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Το έργο αυτό συγκεντρώνει τους επιστήμονες από τέσσερις ακαδημαϊκές οργανώσεις σε ένα διεπιστημονικό (χημική σύνθεση και φωτοκατάλυσης / κατάλυση) καινοτόμο σχέδιο, τη σύνθεση νέων αντιστρεπτών κινόνης / υδροκινόνης-μεταλλο φωτοκαταλυτών / καταλύτων που καταλύουν επιλεκτικά την οξείδωση / αναγωγή του Η2Ο / Ο2 σε Η2Ο2 και την κατασκευή συνθετών H2O2 ? παταριών καυσίμων και υδατικών φωτοσυνθετικών ηλιακών κυττάρων. Επιπλέον, το H2O2 είναι μια ένωση που μπορεί να χρησιμοποιηθεί ως μια φιλική προς το περιβάλλον πηγή ενέργειας, έτσι, η παραγωγή ‘στην πηγή’ Η2Ο2 και οι νέες τεχνολογίες που θα προκύψουν από την παρούσα πρόταση θα οδηγήσουν σε σημαντικά οικονομικά και περιβαλλοντικά οφέλη για την Κύπρο. Οι νέοι ερευνητές θα εκπαιδευτούν σε βάθος σε σύγχρονες τεχνικές, σε τέσσερα από τα καλύτερα ακαδημαϊκά ιδρύματα στον κόσμο, δύο πανεπιστήμια από την Κύπρο και δύο από την Ελλάδα. Επιπλέον, θα αποκτήσουν όλες τις απαραίτητες δεξιότητες που απαιτούνται για θέσεις εργασίας στον ακαδημαϊκό χώρο, τον δημόσιο τομέα και τη βιομηχανία. Τα αποτελέσματα της εργασίας αυτής θα δημοσιευθούν σε υψηλής ποιότητας επιστημονικά περιοδικά, δίπλωμα ευρεσιτεχνίας και σε διεθνή και τοπικά συνέδρια. (Greek)
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This project brings together scientists from four academic organisations in an interdisciplinary (chemical synthesis and photocatalysis/catalysis) innovative project, the synthesis of new reversible quinone/hydroquinone-metal photocatalysts/catalysts that selectively catalyse the oxidation/reduction of H2O/O2 to H2O2 and the manufacture of compounds H2O2; fuel pats and aqueous photosynthetics. In addition, H2O2 is a compound that can be used as an environmentally friendly energy source, so the production of ‘at source’ H2O2 and the new technologies resulting from this proposal will lead to significant economic and environmental benefits for Cyprus. Young researchers will be trained in depth in modern techniques, in four of the best academic institutions in the world, two universities from Cyprus and two from Greece. In addition, they will acquire all the necessary skills required for jobs in academia, the public sector and industry. The results of this work will be published in high-quality scientific journals, patents and international and local conferences. (English)
31 May 2021
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*Δεν έχει γεωγραφική διάσταση*
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Identifiers
34511
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