Experimental Physics VI, Julius-Maximilian University of Würzburg, 97074 Würzburg, Germany.
J Am Chem Soc. 2011 Jun 15;133(23):9088-94. doi: 10.1021/ja2025432. Epub 2011 May 19.
Organic bulk-heterojunctions (BHJ) and solar cells containing the trimetallic nitride endohedral fullerene 1-[3-(2-ethyl)hexoxy carbonyl]propyl-1-phenyl-Lu(3)N@C(80) (Lu(3)N@C(80)-PCBEH) show an open circuit voltage (V(OC)) 0.3 V higher than similar devices with [6,6]-phenyl-C[61]-butyric acid methyl ester (PC(61)BM). To fully exploit the potential of this acceptor molecule with respect to the power conversion efficiency (PCE) of solar cells, the short circuit current (J(SC)) should be improved to become competitive with the state of the art solar cells. Here, we address factors influencing the J(SC) in blends containing the high voltage absorber Lu(3)N@C(80)-PCBEH in view of both photogeneration but also transport and extraction of charge carriers. We apply optical, charge carrier extraction, morphology, and spin-sensitive techniques. In blends containing Lu(3)N@C(80)-PCBEH, we found 2 times weaker photoluminescence quenching, remainders of interchain excitons, and, most remarkably, triplet excitons formed on the polymer chain, which were absent in the reference P3HT:PC(61)BM blends. We show that electron back transfer to the triplet state along with the lower exciton dissociation yield due to intramolecular charge transfer in Lu(3)N@C(80)-PCBEH are responsible for the reduced photocurrent.
有机本体异质结 (BHJ) 和含有三金属氮化物笼内富勒烯 1-[3-(2-乙基)己氧基羰基]丙基-1-苯基-Lu(3)N@C(80) (Lu(3)N@C(80)-PCBEH) 的太阳能电池的开路电压 (V(OC)) 比具有 [6,6]-苯基-C[61]-丁酸甲酯 (PC(61)BM) 的类似器件高 0.3 V。为了充分利用这种受体分子在太阳能电池的功率转换效率 (PCE) 方面的潜力,短路电流 (J(SC)) 应该得到提高,以与最先进的太阳能电池竞争。在这里,我们针对含有高压受体 Lu(3)N@C(80)-PCBEH 的混合物中影响 J(SC)的因素进行了研究,考虑了光生载流子的产生以及电荷载流子的输运和提取。我们应用了光学、电荷载流子提取、形态学和自旋敏感技术。在含有 Lu(3)N@C(80)-PCBEH 的混合物中,我们发现光致发光猝灭强度弱 2 倍,存在链间激子的残余物,而且最显著的是,在聚合物链上形成了三重态激子,而在参考 P3HT:PC(61)BM 混合物中则不存在三重态激子。我们表明,电子沿三重态的反向转移以及 Lu(3)N@C(80)-PCBEH 中分子内电荷转移导致的激子离解产率降低是导致光电流减小的原因。
