Department of Chemistry, University of Minnesota, Minneapolis, Minnesota 55455, United States.
J Am Chem Soc. 2010 Nov 17;132(45):16191-201. doi: 10.1021/ja1060142. Epub 2010 Oct 25.
We have measured the current-voltage characteristics of conjugated oligo-tetrathiafulvalene-pyromelliticdiimide-imine (OTPI) wires ranging in length from 2.5 to 20.2 nm, contacted by Au electrodes. OTPI wires were built from Au substrates using alternating donor (tetrathiafulvalene, TTF) and acceptor (pyromelliticdiimide, PMDI) building blocks linked via aryl imine groups. Metal-molecule-metal junctions consisting of approximately 100 wires in parallel were prepared by contacting the wire films with an Au-coated atomic force microscope tip. The long OTPI wires exhibit a narrow band gap (<1.5 eV) and multiple redox states, which facilitate carrier injection from the Au contacts for hopping transport. We observe the theoretically predicted change in direct current (DC) transport from tunneling to hopping as a function of systematically controlled wire length, as well as strongly enhanced wire conductivity (0.02 S/cm) in the hopping regime. Hopping conduction is confirmed by length-, temperature-, and field-dependent transport measurements. These nanoscale transport measurements illuminate the role of molecular length and bond architecture on molecular conductivity and open opportunities for greater understanding of hopping transport in conjugated polymer films.
我们已经测量了由金电极接触的长度从 2.5 到 20.2nm 的共轭寡聚噻吩四硫富瓦烯-均苯四酸二酰亚胺-亚胺(OTPI)线的电流-电压特性。OTPI 线是由 Au 基底上通过芳基亚胺基团连接的交替供体(四噻吩富瓦烯,TTF)和受体(均苯四酸二酰亚胺,PMDI)构建块构建而成的。通过用 Au 涂层原子力显微镜尖端接触线膜,制备了由大约 100 根线并联组成的金属-分子-金属结。长的 OTPI 线表现出窄的带隙(<1.5eV)和多个氧化还原态,这有利于载流子从 Au 接触注入以进行跳跃传输。我们观察到理论预测的直流(DC)传输从隧道到跳跃的变化作为系统控制的线长度的函数,以及在跳跃区域中强烈增强的线导电性(0.02S/cm)。跳跃传导通过长度、温度和场依赖的传输测量得到证实。这些纳米尺度的传输测量阐明了分子长度和键结构对分子导电性的作用,并为进一步理解共轭聚合物膜中的跳跃传输提供了机会。
