Stability of bilayer trimethine cyanine dye/fullerene organic solar cells
Identifieur interne : 000500 ( Main/Repository ); précédent : 000499; suivant : 000501Stability of bilayer trimethine cyanine dye/fullerene organic solar cells
Auteurs : RBID : Pascal:13-0303954Descripteurs français
- Pascal (Inist)
- Colorant cyaninique, Cellule solaire à colorant, Cellule solaire organique, Long terme, Cellule solaire, Conversion énergie, Taux conversion, Température ambiante, Evaluation performance, Addition étain, Endommagement, Dégradation, Simulation système, Essai thermique préliminaire, Polymérisation photochimique, Bicouche, Fullerènes, Couche mince, Oxyde d'indium, Oxyde de titane, Oxyde de molybdène, Styrènesulfonate polymère, Thiophène dérivé polymère, Mélange polymère, Aluminium, C60, ITO, TiO2, MoO3.
- Wicri :
- concept : Aluminium.
English descriptors
- KwdEn :
- Aluminium, Bilayers, Burn in test, Conversion rate, Cyanine dye, Damaging, Degradation, Dye-sensitized solar cell, Energy conversion, Fullerenes, Indium oxide, Long term, Molybdenum oxide, Organic solar cells, Performance evaluation, Photopolymerization, Polymer blends, Room temperature, Solar cell, Styrenesulfonate polymer, System simulation, Thin film, Thiophene derivative polymer, Tin addition, Titanium oxide.
Abstract
The long-term (up to 100 days) stabilities of thin films of a trimethine cyanine dye (Cy3-P) and of Cy3-P/ C60 bilayer solar cells with initial power conversion efficiencies of up to 3.6% in the regular and inverted device architecture were studied. For storage conditions under nitrogen at room temperature in the dark, Cy3-P films were stable and no decrease in performance was measured for inverted ITO/TiO2/C60/Cy3-P/ MoO3/Ag solar cells. ITO/PEDOT:PSS and aluminum were found to be responsible for a slight inherent degradation of regular solar cells under inert storage conditions. Solar cells stressed at accelerated (80 C) full sun simulation showed a burn-in period of ∼5 days with a performance loss of 75%. This initial performance decrease might be linked to the photopolymerization reaction of C60. For longer times, performances stabilized and arrived at 15% of the initial values after a test period of 17 days.
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Pascal:13-0303954Le document en format XML
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<title level="j" type="abbreviated">Sol. energy mater. sol. cells</title>
<title level="j" type="main">Solar energy materials and solar cells</title>
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<term>Bilayers</term>
<term>Burn in test</term>
<term>Conversion rate</term>
<term>Cyanine dye</term>
<term>Damaging</term>
<term>Degradation</term>
<term>Dye-sensitized solar cell</term>
<term>Energy conversion</term>
<term>Fullerenes</term>
<term>Indium oxide</term>
<term>Long term</term>
<term>Molybdenum oxide</term>
<term>Organic solar cells</term>
<term>Performance evaluation</term>
<term>Photopolymerization</term>
<term>Polymer blends</term>
<term>Room temperature</term>
<term>Solar cell</term>
<term>Styrenesulfonate polymer</term>
<term>System simulation</term>
<term>Thin film</term>
<term>Thiophene derivative polymer</term>
<term>Tin addition</term>
<term>Titanium oxide</term>
</keywords>
<keywords scheme="Pascal" xml:lang="fr"><term>Colorant cyaninique</term>
<term>Cellule solaire à colorant</term>
<term>Cellule solaire organique</term>
<term>Long terme</term>
<term>Cellule solaire</term>
<term>Conversion énergie</term>
<term>Taux conversion</term>
<term>Température ambiante</term>
<term>Evaluation performance</term>
<term>Addition étain</term>
<term>Endommagement</term>
<term>Dégradation</term>
<term>Simulation système</term>
<term>Essai thermique préliminaire</term>
<term>Polymérisation photochimique</term>
<term>Bicouche</term>
<term>Fullerènes</term>
<term>Couche mince</term>
<term>Oxyde d'indium</term>
<term>Oxyde de titane</term>
<term>Oxyde de molybdène</term>
<term>Styrènesulfonate polymère</term>
<term>Thiophène dérivé polymère</term>
<term>Mélange polymère</term>
<term>Aluminium</term>
<term>C60</term>
<term>ITO</term>
<term>TiO2</term>
<term>MoO3</term>
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<front><div type="abstract" xml:lang="en">The long-term (up to 100 days) stabilities of thin films of a trimethine cyanine dye (Cy3-P) and of Cy3-P/ C<sub>60</sub>
bilayer solar cells with initial power conversion efficiencies of up to 3.6% in the regular and inverted device architecture were studied. For storage conditions under nitrogen at room temperature in the dark, Cy3-P films were stable and no decrease in performance was measured for inverted ITO/TiO<sub>2</sub>
/C<sub>60</sub>
/Cy3-P/ MoO<sub>3</sub>
/Ag solar cells. ITO/PEDOT:PSS and aluminum were found to be responsible for a slight inherent degradation of regular solar cells under inert storage conditions. Solar cells stressed at accelerated (80 C) full sun simulation showed a burn-in period of ∼5 days with a performance loss of 75%. This initial performance decrease might be linked to the photopolymerization reaction of C<sub>60</sub>
. For longer times, performances stabilized and arrived at 15% of the initial values after a test period of 17 days.</div>
</front>
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<fA03 i2="1"><s0>Sol. energy mater. sol. cells</s0>
</fA03>
<fA05><s2>117</s2>
</fA05>
<fA08 i1="01" i2="1" l="ENG"><s1>Stability of bilayer trimethine cyanine dye/fullerene organic solar cells</s1>
</fA08>
<fA11 i1="01" i2="1"><s1>WICHT (Gaetan)</s1>
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<fA11 i1="08" i2="1"><s1>LEI WANG</s1>
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<fC01 i1="01" l="ENG"><s0>The long-term (up to 100 days) stabilities of thin films of a trimethine cyanine dye (Cy3-P) and of Cy3-P/ C<sub>60</sub>
bilayer solar cells with initial power conversion efficiencies of up to 3.6% in the regular and inverted device architecture were studied. For storage conditions under nitrogen at room temperature in the dark, Cy3-P films were stable and no decrease in performance was measured for inverted ITO/TiO<sub>2</sub>
/C<sub>60</sub>
/Cy3-P/ MoO<sub>3</sub>
/Ag solar cells. ITO/PEDOT:PSS and aluminum were found to be responsible for a slight inherent degradation of regular solar cells under inert storage conditions. Solar cells stressed at accelerated (80 C) full sun simulation showed a burn-in period of ∼5 days with a performance loss of 75%. This initial performance decrease might be linked to the photopolymerization reaction of C<sub>60</sub>
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<s5>09</s5>
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<s5>10</s5>
</fC03>
<fC03 i1="10" i2="X" l="ENG"><s0>Tin addition</s0>
<s5>10</s5>
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<s5>10</s5>
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<s5>11</s5>
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<s5>11</s5>
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<s5>11</s5>
</fC03>
<fC03 i1="12" i2="X" l="FRE"><s0>Dégradation</s0>
<s5>12</s5>
</fC03>
<fC03 i1="12" i2="X" l="ENG"><s0>Degradation</s0>
<s5>12</s5>
</fC03>
<fC03 i1="12" i2="X" l="SPA"><s0>Degradación</s0>
<s5>12</s5>
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<fC03 i1="14" i2="X" l="FRE"><s0>Essai thermique préliminaire</s0>
<s5>14</s5>
</fC03>
<fC03 i1="14" i2="X" l="ENG"><s0>Burn in test</s0>
<s5>14</s5>
</fC03>
<fC03 i1="14" i2="X" l="SPA"><s0>Prueba térmica preliminar</s0>
<s5>14</s5>
</fC03>
<fC03 i1="15" i2="X" l="FRE"><s0>Polymérisation photochimique</s0>
<s5>15</s5>
</fC03>
<fC03 i1="15" i2="X" l="ENG"><s0>Photopolymerization</s0>
<s5>15</s5>
</fC03>
<fC03 i1="15" i2="X" l="SPA"><s0>Polimerización fotoquímica</s0>
<s5>15</s5>
</fC03>
<fC03 i1="16" i2="3" l="FRE"><s0>Bicouche</s0>
<s5>22</s5>
</fC03>
<fC03 i1="16" i2="3" l="ENG"><s0>Bilayers</s0>
<s5>22</s5>
</fC03>
<fC03 i1="17" i2="X" l="FRE"><s0>Fullerènes</s0>
<s5>23</s5>
</fC03>
<fC03 i1="17" i2="X" l="ENG"><s0>Fullerenes</s0>
<s5>23</s5>
</fC03>
<fC03 i1="18" i2="X" l="FRE"><s0>Couche mince</s0>
<s5>24</s5>
</fC03>
<fC03 i1="18" i2="X" l="ENG"><s0>Thin film</s0>
<s5>24</s5>
</fC03>
<fC03 i1="18" i2="X" l="SPA"><s0>Capa fina</s0>
<s5>24</s5>
</fC03>
<fC03 i1="19" i2="X" l="FRE"><s0>Oxyde d'indium</s0>
<s5>25</s5>
</fC03>
<fC03 i1="19" i2="X" l="ENG"><s0>Indium oxide</s0>
<s5>25</s5>
</fC03>
<fC03 i1="19" i2="X" l="SPA"><s0>Indio óxido</s0>
<s5>25</s5>
</fC03>
<fC03 i1="20" i2="X" l="FRE"><s0>Oxyde de titane</s0>
<s5>26</s5>
</fC03>
<fC03 i1="20" i2="X" l="ENG"><s0>Titanium oxide</s0>
<s5>26</s5>
</fC03>
<fC03 i1="20" i2="X" l="SPA"><s0>Titanio óxido</s0>
<s5>26</s5>
</fC03>
<fC03 i1="21" i2="X" l="FRE"><s0>Oxyde de molybdène</s0>
<s5>27</s5>
</fC03>
<fC03 i1="21" i2="X" l="ENG"><s0>Molybdenum oxide</s0>
<s5>27</s5>
</fC03>
<fC03 i1="21" i2="X" l="SPA"><s0>Molibdeno óxido</s0>
<s5>27</s5>
</fC03>
<fC03 i1="22" i2="X" l="FRE"><s0>Styrènesulfonate polymère</s0>
<s2>NK</s2>
<s5>28</s5>
</fC03>
<fC03 i1="22" i2="X" l="ENG"><s0>Styrenesulfonate polymer</s0>
<s2>NK</s2>
<s5>28</s5>
</fC03>
<fC03 i1="22" i2="X" l="SPA"><s0>Estireno sulfonato polímero</s0>
<s2>NK</s2>
<s5>28</s5>
</fC03>
<fC03 i1="23" i2="X" l="FRE"><s0>Thiophène dérivé polymère</s0>
<s2>NK</s2>
<s5>29</s5>
</fC03>
<fC03 i1="23" i2="X" l="ENG"><s0>Thiophene derivative polymer</s0>
<s2>NK</s2>
<s5>29</s5>
</fC03>
<fC03 i1="23" i2="X" l="SPA"><s0>Tiofeno derivado polímero</s0>
<s2>NK</s2>
<s5>29</s5>
</fC03>
<fC03 i1="24" i2="3" l="FRE"><s0>Mélange polymère</s0>
<s5>30</s5>
</fC03>
<fC03 i1="24" i2="3" l="ENG"><s0>Polymer blends</s0>
<s5>30</s5>
</fC03>
<fC03 i1="25" i2="X" l="FRE"><s0>Aluminium</s0>
<s2>NC</s2>
<s2>FR</s2>
<s2>FX</s2>
<s5>31</s5>
</fC03>
<fC03 i1="25" i2="X" l="ENG"><s0>Aluminium</s0>
<s2>NC</s2>
<s2>FR</s2>
<s2>FX</s2>
<s5>31</s5>
</fC03>
<fC03 i1="25" i2="X" l="SPA"><s0>Aluminio</s0>
<s2>NC</s2>
<s2>FR</s2>
<s2>FX</s2>
<s5>31</s5>
</fC03>
<fC03 i1="26" i2="X" l="FRE"><s0>C60</s0>
<s4>INC</s4>
<s5>82</s5>
</fC03>
<fC03 i1="27" i2="X" l="FRE"><s0>ITO</s0>
<s4>INC</s4>
<s5>83</s5>
</fC03>
<fC03 i1="28" i2="X" l="FRE"><s0>TiO2</s0>
<s4>INC</s4>
<s5>84</s5>
</fC03>
<fC03 i1="29" i2="X" l="FRE"><s0>MoO3</s0>
<s4>INC</s4>
<s5>85</s5>
</fC03>
<fN21><s1>287</s1>
</fN21>
<fN44 i1="01"><s1>OTO</s1>
</fN44>
<fN82><s1>OTO</s1>
</fN82>
</pA>
</standard>
</inist>
</record>
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