In order to study the carrier transporting properties in organic semiconductors (OSCs), the samples of single layer structure ITO/NPB/Ag are prepared, and the corresponding admittance model in theory is built. Impedance samples of the structure under different DC bias voltages are obtained by small sinusoidal signal frequency test method. The particle swarm optimization (PSO) algorithm, in which fitness function includes both the real part and the imaginary part of OSC impedance, is used to identify the model parameter including dispersion coefficient M ,α and charge-carrier transit timeτdc. To validate the proposed method, an equivalent circuit model of the structure, whose time constantτc is identified by least squares method, is built. Two single-layer structures, whose NPB thickness values are respectively 1000 nm and 1200 nm, are tested. Test results show that the charge-carrier transit timeτdc is proportional to the time constantτc and the two hole mobility µdc values both satisfy the famous Poole-Frenkel formula.%为了研究有机半导体材料的载流子传输特性,制备了单层器件ITO/NPB/Ag,建立了该器件的理论导纳模型.利用正弦小信号频域测试法得到该器件在不同直流偏压下的频率特性样本.定义了同时包含有机半导体阻抗实部和虚部的模型参数辨识问题的目标函数,采用粒子群算法对包括载流子迁移时间τdc,色散度参数M和α在内的模型参数进行辨识.为了验证提出方法的有效性,建立了器件的等效电路模型,并用最小二乘算法辨识出等效电路的时间常数τc.实验上对1000 nm和1200 nm的单层器件进行频域测试,经计算发现τdc和τc 之间具有相同的比例关系,通过对计算出的空穴迁移率µdc 进行指数拟合发现,两种厚度的NPB器件的空穴迁移率与电场强度呈指数增加,且满足著名的Poole-Frenkel公式.
展开▼
