朝向可持续制造光伏的人,德国奥尔登堡大学的曼努埃拉·希克(Manuela Schiek)研究小组已经发现Olympus LEXT OLS4100high-resolution analysis and stitching function capabilities have enhanced their research.
Olympus Lext OLS4100的Manuela Schiek博士
与最终产品的“绿色”意图相比,当前的太阳能电池制造过程非常危险和消耗能量。Schiek博士的研究重点是无害且容易获得的太阳能电池制造的替代材料,包括使用有机半导体欧洲杯足球竞彩和由银纳米线网状形成的透明电极系统。
凭借其复杂的多层结构,表面分析技术为太阳能电池的工作提供了重要的见解。LEXT 3D CLSM结合了生成详细的,真实的光学图像与激光扫描技术的非接触功能的能力,LEXT 3D CLSM可实现出色的高精度光学特性和计量。在Schiek的工作中,使用LEXT来准确测量太阳能电池的能量捕获活性层中有机半导体材料的厚度,因为这可以严重影响其效率。欧洲杯足球竞彩通过其非接触式能力比基于手写笔的技术更快,更高效,更精确,以高分辨率测量软性或粘合表面。
The expanded field of view offered by the rapid and intuitive stitching function of the LEXT also markedly improved the efficiency of surface roughness evaluation in comparison to Atomic Force Microscopy (AFM). The LEXT enabled viewing of a more representative sample of silver wire mesh on the transparent electrode surface and this combined with the wide magnification range helped to identify regions of unwanted aggregation that would otherwise have been missed. Dr Schiek commented, “The LEXT has been a great asset in our work. As well as being much faster than AFM, the area that you can inspect is a lot larger, with true colours and a 3D height profile for more insightful analyses”.
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