Center for Nanoscale Science and Engineering, North Dakota State University, Fargo, ND 58102, USA.
J Phys Condens Matter. 2013 May 15;25(19):196001. doi: 10.1088/0953-8984/25/19/196001. Epub 2013 Apr 19.
The carrier transport of chemical vapor deposition (CVD) prepared films of the room temperature organic-based magnet V[TCNE]x (TCNE = tetracyanoethylene; x ~ 2) over a broad temperature and magnetic field range is reported. Due to disorder the TCNE sites are located in statistically different environments, and their energies vary from site-to-site, which leads to tailing the density of states into the energy gap, creating electronic traps and suppressing the electron mobility. Conversely, these variations have little effect on the valence band derived from the octahedral V(II)3d(t(2g)) levels, and, hence, on the hole mobility. Presuming a Gaussian distribution of the energies of the localized states in the gap, a model that adequately describes the experimental data is proposed. In this model the T(-1) temperature dependent term was added to the Arrhenius activation energy, Ea, which effectively describes its decrease on cooling. The linear increase of positive magnetoresistance with magnetic field, as well as its weak temperature dependence [ is proportional to (1-T/Tc)(-1/2)] is discussed in terms of a small contribution to Ea associated with the change of magnetic energy.
室温下有机基磁体 V[TCNE]x(TCNE = 四氰基乙烯;x~2)的化学气相沉积(CVD)制备薄膜的载流子输运在很宽的温度和磁场范围内得到了研究。由于无序,TCNE 位点位于统计上不同的环境中,它们的能量在站点之间变化,这导致了状态密度在能隙中拖尾,产生电子陷阱并抑制电子迁移率。相反,这些变化对来自八面体 V(II)3d(t(2g)) 能级的价带几乎没有影响,因此对空穴迁移率也没有影响。假定在能隙中局域态的能量呈高斯分布,提出了一个能够充分描述实验数据的模型。在该模型中,T(-1) 温度相关项被添加到 Arrhenius 激活能 Ea 中,这有效地描述了其在冷却时的降低。正磁电阻随磁场的线性增加,以及其较弱的温度依赖性[与(1-T/Tc)(-1/2)] 与与磁能变化相关的 Ea 的小贡献有关。
