The interplay of electronic structure, molecular orientation and charge transport in organic semiconductors: Poly(thiophene) and poly(bithiophene)

Y. Garcia-Basabe; B.G.A.L. Borges; D.C. Silva; A.G. Macedo; L. Micaroni; L.S. Roman; M.L.M. Rocco

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The interplay of electronic structure, molecular orientation and charge transport in organic semiconductors: Poly(thiophene) and poly(bithiophene)

机译：有机半导体中电子结构，分子取向和电荷传输的相互作用：聚噻吩和聚联噻吩

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Ultrathin films of poly(thiophene) (PT) and poly(bithiophene) (PBT) were prepared by electrochemical route using ionic liquid (BFEE) as medium and electrolyte. Distinct morphologies and electrical properties were observed in these materials. To evaluate its response in photovoltaics, these films were used as active layer in bilayer geometry solar cells with the electron acceptor molecule C_(60) The best performance was observed for PT films. In order to probe the differences in molecular dynamics and structural order, ultrafast electron dynamics in the low-femtosecond regime was evaluated by resonant Auger spectroscopy using the core-hole clock method at the sulfur K absorption edge. Electron delocalization times for the different polymeric films were derived as a function of the excitation energy. Photoabsorption measurements were conducted and molecular orientation derived. These results corroborated with the morphology found for these films and thus the performance of PT and PBT in the devices, and with the proposed conduction mechanism.

机译：以离子液体（BFEE）为介质和电解质，通过电化学途径制备了聚噻吩（PT）和聚噻吩（PBT）的超薄膜。在这些材料中观察到不同的形态和电性能。为了评估其在光伏电池中的响应，这些膜被用作具有电子受体分子C_（60）的双层几何形状太阳能电池中的活性层。对于PT膜，观察到了最佳性能。为了探究分子动力学和结构顺序的差异，通过共振俄歇光谱法使用核孔钟法在硫K吸收边缘对低飞秒状态下的超快电子动力学进行了评估。根据激发能得出不同聚合物薄膜的电子离域时间。进行光吸收测量并得出分子取向。这些结果与这些膜的形貌，器件中PT和PBT的性能以及拟议的导电机理相吻合。

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来源
《Organic Electronics》 |2013年第11期|2980-2986|共7页
作者
Y. Garcia-Basabe; B.G.A.L. Borges; D.C. Silva; A.G. Macedo; L. Micaroni; L.S. Roman; M.L.M. Rocco;
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作者单位

Institute of Chemistry, Federal University of Rio de Janeiro, 21941-909 Rio de Janeiro, Brazil,Department of Physics, Faculty of Engineering, University of Matanzas 'Camilo Cienfuegos', Matanzas 40100, Cuba;

Institute of Chemistry, Federal University of Rio de Janeiro, 21941-909 Rio de Janeiro, Brazil;

Engineering and Materials Science (PIPE), Federal University of Parana, 81531-990 Curitiba, Brazil;

Department of Physics, Technological Federal University of Parana, 80230-901 Curitiba, Brazil;

Department of Chemistry, Federal University of Parana, 81531-990 Curitiba, Brazil;

Engineering and Materials Science (PIPE), Federal University of Parana, 81531-990 Curitiba, Brazil,Department of Physics, Federal University of Parana, 81531-990 Curitiba, Brazil, Federal University of Parana, 81531-990 Curitiba, Brazil;

Institute of Chemistry, Federal University of Rio de Janeiro, 21941-909 Rio de Janeiro, Brazil,Federal University of Rio de Janeiro, 21941-909 Rio de Janeiro, Brazil;

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正文语种 eng
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关键词
Core-hole clock method; Morphology; Electron delocalization dynamics; Poly(thiophene); Poly(bithiophene); Photovoltaics;

机译：芯孔时钟法;形态学;电子离域动力学;聚（噻吩）;聚（联噻吩）;光伏发电;

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The interplay of electronic structure, molecular orientation and charge transport in organic semiconductors: Poly(thiophene) and poly(bithiophene)

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