2026年02月02日 08:44:17 来源:巨力光电(北京)科技有限公司 >> 进入该公司展台 阅读量:7
Quantitative Analysis of Charge Transport in Single-Carrier Devices and OLEDs Combining DC and AC Data ——结合直流和交流数据对单载流子器件和OLEDs中的电荷传输进行定量分析 Sandra Jenatsch, Simon Züfle, Paul-Anton Will, Balthasar Blülle, Martin Neukom, Simone Lenk, Sebastian Reineke, Daniele Braga, Konrad Domanski, Beat Ruhstaller SID 2019 Digest, P-176 (2019) https://doi.org/10.1002/sdtp.13333
Abstract:
Single-carrier devices are perfect model systems to extract material parameters for more complex multilayer organic lightemitting diodes (OLEDs) and to learn about charge transport and injection properties of the device. By combining simulation and measurements in steady-state and frequency domain, we obtain a set of reliable material parameters which can be used to model the multilayer OLED structure. Moreover, we can also evaluate the contact behavior and conclude that the OLED operation is limited by electron transport.
本篇文章采用paios多功能载流子特性分析系统及暗注入瞬态法(DIT)测量和分析数据,paios专用于太阳能电池瞬态光电特性及载流子特性的深入研究与分析;可对OPV太阳能电池、PVK钙钛矿太阳能电池、OLED器件和其他半导体器件中的载流子迁移率进行全面有效的分析和测量 测试功能:载流子迁移率 载流子寿命 串联电阻 复合效率 陷阱密度 介电常数
测试模式:IV曲线,IVL曲线,TPC瞬态光电流,TPV瞬态光电压,Photo-CELIV线性增压载流子抽取,CE载流子抽取,IMPS调制光电流谱,IMVS调制光电压谱,IS阻抗谱,C-V电容-电压,DIT暗注入,EQE外量子效率,TEL瞬态光致发光等;
应用领域:无机半导体材料 有机太阳能电池OPV
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