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  3. Map of the Month – Photocurrent Imaging

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Map of the Month – Photocurrent Imaging

  • March 3, 2025

KEY POINTS

  • Raman, photoluminescence, and photocurrent imaging techniques are combined to analyse an organic solar cell. This approach offers insights into chemical composition, charge extraction efficiency, and phase separation, all essential for optimising solar cell performance.
  • Raman imaging reveals information about chemical composition, whereas photoluminescence imaging indicates donor and acceptor phase separation and charge carrier efficiency. Simultaneous photocurrent imaging relates these parameters to power conversion efficiency.
  • These correlative imaging techniques are valuable for understanding limitations in solar cell design and refining fabrication processes.
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Welcome to Edinburgh Instruments’ blog celebrating our work in Raman, Photoluminescence, and Fluorescence Lifetime Imaging. Every month, we aim to highlight our pick for Map of the Month to show how our Raman and fluorescence spectrometers can be used to reveal all the hidden secrets in your samples.  

March 2025 

To truly optimise organic solar cell technology, we need to see beyond bulk measurements. We need to visualize performance at the microscale. That’s why we’re highlighting the power of photocurrent imaging with Raman microscopy at the Materials for Sustainable Development Conference in Seville this month. 

This technique allows us to map photocurrent distribution with exceptional resolution, revealing critical information about how these materials function. We can pinpoint areas of high and low activity, identify defects, and understand the impact of material morphology on device performance. 

Our latest Application Note demonstrates this capability, showcasing confocal Raman, photoluminescence, and photocurrent imaging of an organic solar cell. We provide a detailed picture of these materials’ chemical composition and functional performance. 

See how photocurrent imaging can revolutionize your research: Confocal Raman, Photoluminescence, and Photocurrent Imaging of an Organic Solar Cell 

Join us in Seville to explore the future of sustainable materials research! 

 

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