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Statements

Subject Item
n2:7E09054
rdf:type
n14:Projekt
rdfs:seeAlso
http://www.isvav.cz/projectDetail.do?rowId=7E09054
dcterms:description
Recent developments in the design and synthesis of nanoscale building blocks as active elements in opto- or bio-electronic devices with tailored electronic functionality have the potential to open up new horizons in nanoscience and also revolutionise multi-billion dollar markets across multiple technology sectors including healthcare, printable electronics, and security. Ligand-stabilised inorganic nanocrystals (ca 2-30 nm core diameters) and functional organic molecules are attractive building blocks due to their size dependent opto-electronic properties, the availability of low-cost synthesis processes and the potential for formation of ordered structures via (bio) molecular recognition and self-assembly. Harnessing the complementarity properties of both nanocrystals and functional molecules thus represents a unique opportunity for generation of new knowledge and development of new classes of high knowledge-content materials with specific functionality tailored for key applications, e.g. printable Recent developments in the design and synthesis of nanoscale building blocks as active elements in opto- or bio-electronic devices with tailored electronic functionality have the potential to open up new horizons in nanoscience and also revolutionise multi-billion dollar markets across multiple technology sectors including healthcare, printable electronics, and security. Ligand-stabilised inorganic nanocrystals (ca 2-30 nm core diameters) and functional organic molecules are attractive building blocks due to their size dependent opto-electronic properties, the availability of low-cost synthesis processes and the potential for formation of ordered structures via (bio) molecular recognition and self-assembly. Harnessing the complementarity properties of both nanocrystals and functional molecules thus represents a unique opportunity for generation of new knowledge and development of new classes of high knowledge-content materials with specific functionality tailored for key applications, e.g. printable
dcterms:title
Multi-scale Formation of Functional Nanocrystal-Molecule Assemblies and Architectures Multi-scale Formation of Functional Nanocrystal-Molecule Assemblies and Architectures
skos:notation
7E09054
n3:aktivita
n8:7E
n3:celkovaStatniPodpora
n10:celkovaStatniPodpora
n3:celkoveNaklady
n10:celkoveNaklady
n3:datumDodatniDoRIV
2012-07-12+02:00
n3:druhSouteze
n21:RP
n3:duvernostUdaju
n15:C
n3:fazeProjektu
n5:91908222
n3:hlavniObor
n20:CC
n3:hodnoceniProjektu
n7:U
n3:kategorie
n6:ZV
n3:klicovaSlova
nanoscience; opto-electronic devices; bio-electronic devices; nanocrystal-molecule materials; functional organic molecules; molecular recognition; self-assembly; printable electronics; biosensing; energy conversion; signal processing
n3:partnetrHlavni
n4:ico%3A61388963
n3:pocetKoordinujicichPrijemcu
0
n3:pocetPrijemcu
1
n3:pocetSpoluPrijemcu
0
n3:pocetVysledkuRIV
2
n3:pocetZverejnenychVysledkuVRIV
2
n3:posledniUvolneniVMinulemRoce
2011-03-14+01:00
n3:prideleniPodpory
n9:3097%2F2010-32
n3:sberDatUcastniciPoslednihoRoku
n17:2011
n3:sberDatUdajeProjZameru
n17:2012
n3:statusZobrazovaneFaze
n19:DUU
n3:typPojektu
n16:P
n3:ukonceniReseni
2011-09-30+02:00
n3:zahajeniReseni
2009-04-01+02:00
n3:zhodnoceni+vysledku+projektu+dodavatelem
Hodnocení výsledků řešení ministerstvo neprovádí, neboť podmínkou podpory je, že uchazeč byl vybrán mezinárodním poskytovatelem v souladu s pravidly příslušného programu. Projekt je hodnocen až po jeho schválení mezinárodním poskytovatelem. Following the condition that the candidate of financial contribution was evaluated and afterwards selected by international provider in accordance with the rules of the program the Ministry of Education, Youth ans Sports does not realize the evaluation of project results. The project is evaluated only after its approval by an international provider.
n3:zivotniCyklusProjektu
n22:ZBKU
n3:vyzva
n11:FP7-NMP-2007-LARGE-1
n3:klicoveSlovo
printable electronics self-assembly bio-electronic devices nanoscience functional organic molecules molecular recognition nanocrystal-molecule materials energy conversion opto-electronic devices biosensing