Shklyarevskiy Igor O, Jonkheijm Pascal, Stutzmann Natalie, Wasserberg Dorothee, Wondergem Harry J, Christianen Peter C M, Schenning Albertus P H J, de Leeuw Dago M, Tomović Zeljko, Wu Jishan, Müllen Klaus, Maan Jan C
High Field Magnet Laboratory, Institute for Molecules and Materials, Radboud University Nijmegen, Toernooiveld 7, 6525 ED Nijmegen, The Netherlands.
J Am Chem Soc. 2005 Nov 23;127(46):16233-7. doi: 10.1021/ja054694t.
A magnetic field has been utilized for producing highly oriented films of a substituted hexabenzocoronene (HBC). Optical microscopy studies revealed large area HBC monodomains that covered the entire film, while wide-angle X-ray measurements showed that the HBC molecules are aligned with their planes along the applied field. On the basis of this method, solution-processed field-effect transistors (FET) have been constructed with charge carrier mobilities of up to 10(-3) cm2/V.s, which are significantly enhanced with respect to the unaligned material. Exceptionally high mobility anisotropies of 25-75 for current flow parallel and perpendicular to the alignment direction have been measured as a function of the channel length. Atomic force microscopy performed on the FET structures reveals fibril superstructures that are oriented perpendicularly to the magnetic field direction, consisting of molecular columns with a slippage angle of 40 degrees between the molecules. For channel lengths larger than 2.5 mum, the fibrils are smaller than the electrode spacing, which adversely affects the device performance.
磁场已被用于制备取代六苯并蔻(HBC)的高度取向薄膜。光学显微镜研究表明,大面积的HBC单畴覆盖了整个薄膜,而广角X射线测量显示,HBC分子的平面沿外加磁场方向排列。基于这种方法,已构建出溶液处理的场效应晶体管(FET),其电荷载流子迁移率高达10^(-3) cm2/V·s,相对于未取向的材料有显著提高。作为沟道长度的函数,测量了电流平行和垂直于取向方向流动时高达25 - 75的极高迁移率各向异性。在FET结构上进行的原子力显微镜检查揭示了垂直于磁场方向取向的原纤维超结构,其由分子柱组成,分子间的滑移角为40度。对于沟道长度大于2.5μm的情况,原纤维小于电极间距,这对器件性能产生不利影响。