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Statements

Subject Item
n2:7E11021
rdf:type
n19:Projekt
rdfs:seeAlso
http://www.isvav.cz/projectDetail.do?rowId=7E11021
dcterms:description
The overall objective of the project is to develop new Nanomaterials with New Production Technologies and to fabricate silicon quantum dot tandem solar cells to achieve increased efficiencies. The understanding of electrical transport and recombination mechanisms in these newly developed nanomaterials will enable us to design new tandem solar cell structures - based on Si thin-film or wafer solar cells - that help to overcome the efficiency limits of these conventional concepts. In order to reach our goals, considerable R&D work has to be performed on semiconductor bulk materials, thin layers and hetero-structures for such solar cells. These topics have not yet or only in parts been investigated and are also of high scientific interest for novel photonic and charge storage devices incorporating Si nanocrystals embedded in Si alloys. The consortium of this project, also including two companies, merges the scientific and technological competences that are necessary to find answers to these questions. Another objective is the compatibility of the newly developed technologies with high-throughput processing to ensure further cost-reduction. The expected significant jump in the solar cell and processing evolution will lead to higher efficiencies for solar cells and to ongoing cost-reduction also with a long-term perspective and will help to strengthening the European leadership in PV technologies. Thus it will also have a positive impact on the acceptance of photovoltaics by the public and by politics. Moreover, since “energy efficiency” is a big subject in the public discussion, photovoltaics will be an example of one of the highest electricity production efficiencies that have been achieved of all power generators. To sum up, we believe that this project will have a direct and positive impact on the European PV industry and its status in material science and it will contribute to the very ambitious goals of the EU commission in CO2 reduction in general. The overall objective of the project is to develop new Nanomaterials with New Production Technologies and to fabricate silicon quantum dot tandem solar cells to achieve increased efficiencies. The understanding of electrical transport and recombination mechanisms in these newly developed nanomaterials will enable us to design new tandem solar cell structures - based on Si thin-film or wafer solar cells - that help to overcome the efficiency limits of these conventional concepts. In order to reach our goals, considerable R&D work has to be performed on semiconductor bulk materials, thin layers and hetero-structures for such solar cells. These topics have not yet or only in parts been investigated and are also of high scientific interest for novel photonic and charge storage devices incorporating Si nanocrystals embedded in Si alloys. The consortium of this project, also including two companies, merges the scientific and technological competences that are necessary to find answers to these questions. Another objective is the compatibility of the newly developed technologies with high-throughput processing to ensure further cost-reduction. The expected significant jump in the solar cell and processing evolution will lead to higher efficiencies for solar cells and to ongoing cost-reduction also with a long-term perspective and will help to strengthening the European leadership in PV technologies. Thus it will also have a positive impact on the acceptance of photovoltaics by the public and by politics. Moreover, since “energy efficiency” is a big subject in the public discussion, photovoltaics will be an example of one of the highest electricity production efficiencies that have been achieved of all power generators. To sum up, we believe that this project will have a direct and positive impact on the European PV industry and its status in material science and it will contribute to the very ambitious goals of the EU commission in CO2 reduction in general.
dcterms:title
Silicon Nanodots for Solar Cell Tandem Silicon Nanodots for Solar Cell Tandem
skos:notation
7E11021
n3:aktivita
n22:7E
n3:celkovaStatniPodpora
n5:celkovaStatniPodpora
n3:celkoveNaklady
n5:celkoveNaklady
n3:datumDodatniDoRIV
2014-06-30+02:00
n3:druhSouteze
n16:RP
n3:duvernostUdaju
n17:C
n3:fazeProjektu
n13:100705761
n3:hlavniObor
n11:BM
n3:hodnoceniProjektu
n18:U
n3:kategorie
n21:AP
n3:klicovaSlova
Quantum Dot; Tandem Solar Cell; Nanoscience
n3:partnetrHlavni
n14:orjk%3A11320
n3:pocetKoordinujicichPrijemcu
0
n3:pocetPrijemcu
1
n3:pocetSpoluPrijemcu
0
n3:pocetVysledkuRIV
5
n3:pocetZverejnenychVysledkuVRIV
5
n3:posledniUvolneniVMinulemRoce
2013-03-27+01:00
n3:prideleniPodpory
n15:13595%2F2011+%E2%80%93+321
n3:sberDatUcastniciPoslednihoRoku
n4:2013
n3:sberDatUdajeProjZameru
n4:2014
n3:statusZobrazovaneFaze
n12:DUU
n3:typPojektu
n8:P
n3:ukonceniReseni
2013-08-31+02:00
n3:vedlejsiObor
n11:JA n11:BH
n3:zahajeniReseni
2011-01-01+01:00
n3:zhodnoceni+vysledku+projektu+dodavatelem
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. 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.
n3:zivotniCyklusProjektu
n20:ZBKU
n3:vyzva
n10:FP7-NMP-2009-SMALL-3
n3:klicoveSlovo
Tandem Solar Cell Quantum Dot