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MDMO-PPV:PCNEPV

Figure 2.17 C-AFM images of the same area of reduced current) (c) current distribution image a MDMO-PPV/PCNEPV active layer with a negative bias at U.ip = —8 V black arrows... Figure 2.17 C-AFM images of the same area of reduced current) (c) current distribution image a MDMO-PPV/PCNEPV active layer with a negative bias at U.ip = —8 V black arrows...
Figure 14.6 Zero-loss energy-filtered transmission electron microscopy images of MDMO-PPV PCNEPV blends with low (a), medium (b), and high (c) molecular weights of PCNEPV.(Reprinted with permission from Ref [53]. Copyright 2007, Wiley-VCH VerlagCmbH.)... Figure 14.6 Zero-loss energy-filtered transmission electron microscopy images of MDMO-PPV PCNEPV blends with low (a), medium (b), and high (c) molecular weights of PCNEPV.(Reprinted with permission from Ref [53]. Copyright 2007, Wiley-VCH VerlagCmbH.)...
Origin of the reduced fill factor and photocurrent in MDMO-PPV PCNEPV all-polymer solar cells. Adv. Funct. Mater, 172167-2173. [Pg.423]

Figure 4.8 Zero-loss filtered TEM images of thin MDMO-PPV PCNEPV blend film samples, (a) Sample 1 with low (3500 g mol" ) PCNEPV derivative,... Figure 4.8 Zero-loss filtered TEM images of thin MDMO-PPV PCNEPV blend film samples, (a) Sample 1 with low (3500 g mol" ) PCNEPV derivative,...
Exciplex formation and subsequent transfer to a lower lying triplet state of MDMO-PPV in blends with PCNEPV (poly[oxa-l,4-phenylene-(l-cyano-l,2-vinylene)-(2-methoxy-5-(3,7-dimethyloctyloxy)-l,4-phenylene)-l,l-(2-cyano-... [Pg.45]

Fig. 48 Energy levels in the pristine polymers and blend system of PCNEPV and MDMO-PPV. Since the triplet state of MDMO-PPV is the lowest excited state of the system, excitations relax to it and diminish the possibility of charge carrier separation. Notation singlet (S), triplet (T), exciplex (ex), and charge-separated states (CSS) and transitions (ET = energy transfer CS = charge separation PL = photoluminescence ISC = intersystem crossing) between these states. Crosses indicate processes that do occur in the pure materials, but that are quenched in the blend. (Reprinted with permission from [229], 2005, American Physical Society)... Fig. 48 Energy levels in the pristine polymers and blend system of PCNEPV and MDMO-PPV. Since the triplet state of MDMO-PPV is the lowest excited state of the system, excitations relax to it and diminish the possibility of charge carrier separation. Notation singlet (S), triplet (T), exciplex (ex), and charge-separated states (CSS) and transitions (ET = energy transfer CS = charge separation PL = photoluminescence ISC = intersystem crossing) between these states. Crosses indicate processes that do occur in the pure materials, but that are quenched in the blend. (Reprinted with permission from [229], 2005, American Physical Society)...
Veenstra SC, Verhees WJH, Kroon JM, Koetse MM, Sweelssen J, Bastiaansen JJAM, Schoo HFM, Yang X, Alexeev A, Loos J, Schubert US, Wienk MM (2004) Photovoltaic properties of a conjugated polymer blend of MDMO-PPV and PCNEPV. Chem Mater 16 2503... [Pg.80]

Offermans T, van Hal PA, Meskers SCJ, Koetse MM, Janssen RAJ (2005) Exciplex dynamics in a blend of p-conjugated polymers with electron donating and accepting properties MDMO-PPV and PCNEPV. Phys Rev B 72 045213... [Pg.80]

Veenstra, S.C., et al. 2004. Photovoltaic properties of a conjugated polymer blend of MDMO-PPV and PCNEPV. Chem Mater 16 2503. [Pg.122]

See other pages where MDMO-PPV:PCNEPV is mentioned: [Pg.46]    [Pg.46]    [Pg.561]    [Pg.412]    [Pg.426]    [Pg.133]    [Pg.119]    [Pg.46]    [Pg.46]    [Pg.561]    [Pg.412]    [Pg.426]    [Pg.133]    [Pg.119]    [Pg.560]    [Pg.59]    [Pg.59]    [Pg.60]    [Pg.132]    [Pg.118]   
See also in sourсe #XX -- [ Pg.46 ]



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