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Article Abstract
Heterocoronene, a new redox-active core fragment, is utilized for the synthesis of room-temperature columnar discotic liquid crystals (DLCs). Three wedge-shaped side chains having different lengths of alkyl tails are introduced at the periphery of the heterocoronene core to prepare three kinds of discotic molecules, (R = CH), (R = CH), and (R = CH). X-ray diffraction (XRD) analysis confirmed the packing variation in the columnar lattices regulated by alkyl chains of discrete length and steric bulk. When used in space charge limited current devices, compound exhibits a high hole mobility value of 8.84 cm/V s at ambient temperature, whereas compounds and show efficient ambipolar charge transport behavior with maximum hole () and electron () mobilities of 0.70 and 3.59 cm/V s, respectively, for compound . The mobility values ( = 8.84 cm/V s for and = 3.59 cm/V s for ) are remarkable and the highest ever disclosed for any DLC-based organic semiconductor, promising to deliver a good balance between mobility and processability in devices. The grazing incidence small- and wide-angle X-ray scattering experiments are employed to quantify the extent of alignment in the film state, which correlates with the observed trend of mobility values.
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| http://dx.doi.org/10.1021/jacs.9b09126 | DOI Listing |
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