论文标题
下一代光伏的强度调制光电镜
Intensity Modulated Photocurrent Microspectrosopy for Next Generation Photovoltaics
论文作者
论文摘要
在本报告中,我们描述了一种大区域激光束诱导的电流(LBIC)显微镜,该显微镜已适应以在成像模式下与自动化的J-V电气表征相结合的强度调制光电流光谱。从此以后,我们将该方法称为强度调制的光电流微光谱镜,或者简单地影响显微镜。基于显微镜的IMPS旨在使用局部频率响应将光电响应与特定界面,散装材料,特定的传输层或传输参数相关联。此处开发的系统是专门设计的,旨在跟踪有机太阳能电池的分解,包括杂交无机PSC在长期暴露于诸如光,氧气,水分和热量等数量的情况下
In this report, we describe a large-area Laser Beam Induced Current (LBIC) microscope that has been adapted to perform Intensity Modulated Photocurrent Spectroscopy in an imaging mode combined with automated J-V electrical characterization. Henceforth we refer to the method as either Intensity Modulated Photocurrent Micro-spectroscopy or simply IMPS microscopy. Microscopy based IMPS aims to use the localised frequency response to correlate the optoelectrical response with a particular interface, bulk material, specific transport layer or transport parameter. The system developed here is specifically designed to track the decomposition of organic solar cells including hybrid-inorganic PSCs during long-term exposure to quantities such as light, oxygen, moisture, and heat
