Photoconductivity of PbS/perovskite quantum dots in gold nanogaps

We demonstrate that the photoconductance of colloidal PbS/MAPbI(3) quantum dots in nanoscale gold electrode gaps shows a consistent power law dependence of the photocurrent on the light intensity with an exponent slightly below 0.7. The gap sizes are between 25 and 800 nm and by scanning photocurrent microscopy we evidence the strong localization and high reproducibility of photocurrent generation. We probe different flat-faced and pointed electrodes for excitation light in the red and near infrared spectral range and laser irradiances from 10(-2) to 10(2) W cm(-2). Our material combination provides practically identical photocurrent response for a wide range of gap sizes and geometries, highlighting its generic potential for nanoscale light coupling and detection.

Automated summary

This study demonstrates that the photoconductance of colloidal PbS/MAPbI(3) quantum dots in nanoscale gold electrode gaps exhibits a power law dependence on the light intensity. The research reveals the strong localization and high reproducibility of photocurrent generation, and shows that different geometries and excitation methods yield practically identical photocurrent responses.