BIOSOLENUTI

Bio-inspired Solar Energy Utilization

Coordinatore	PANEPISTIMIO KRITIS    more  Organization address address: UNIVERSITY CAMPUS GALLOS city: RETHIMNO postcode: 74100 contact info Titolo: Ms. Nome: Eva Cognome: Michelidaki Email: send email Telefono: +30 2810 393155 Fax: +30 2810 393130
Nazionalità Coordinatore	Greece [EL]
Totale costo	1˙115˙795 €
EC contributo	995˙521 €
Programma	FP7-REGPOT Specific Programme "Capacities": Research potential of Convergence Regions
Code Call	FP7-REGPOT-2008-1
Funding Scheme	CSA-SA
Anno di inizio	2009
Periodo (anno-mese-giorno)	2009-05-01   -   2012-10-31

 Partecipanti

#	participant	country	role	EC contrib. [€]
1	PANEPISTIMIO KRITIS  Organization address address: UNIVERSITY CAMPUS GALLOS city: RETHIMNO postcode: 74100 contact info Titolo: Ms. Nome: Eva Cognome: Michelidaki Email: send email Telefono: +30 2810 393155 Fax: +30 2810 393130	EL (RETHIMNO)	coordinator	995˙521.60

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 Obiettivo del progetto (Objective)

'Upgrading the RTD capacity and capability of Laboratory of Bioinorganic Chemistry (LBIC), training of research staff, improvement of research management, scientific equipment as well as the quality of research for a bio-inspired solar energy utilization. Improvement of the potential of the LBIC to participate in FP7 projects by a better integration in the European Research Area. Molecular systems that mimic the photoconversion steps of photosynthesis have been synthesized using complex and costly sequences of chemical reactions. Yet, modular systems that avoid these difficulties by self-assembling into complete artificial photosynthetic systems remain largely unknown. The design and development of light-harvesting, photoconversion, and catalytic modules capable of self-ordering and self-assembling into an integrated functional unit will make it possible to realize an efficient artificial photosynthetic system for solar fuels production. Achieving the goal of producing a functional integrated artificial photosynthetic system for efficient solar fuels production requires: (1) developing innovative architectures for coupling light-harvesting, photoredox, and catalytic components; (2) understanding the relationships between electronic communication and the molecular interactions responsible for self-assembly; and (3) understanding and controlling the reactivity of hybrid molecular materials on many length scales. In order to achieve a new contribution, the deep knowledge in details of the already mentioned by this multidisciplinary variety of impact is needed. And this is the answer to the question “why this contribution requires a European (rather than a national or local) approach”. The acceptance of the BIOSOLENUTI will push our work-team to interact in a respectable and reciprocal way with other national or international research activities in this attracting research area.'