1. L. Micheli et al., “Correlating photovoltaic soiling losses to waveband and single-value transmittance measurements,” Energy, vol. 180, pp. 376–386, Aug. 2019.
    Self-archiving: [arXiv:1907.11278], [Accepted Manuscript]

  2. E. F. Fernandez, D. Chemisana, L. Micheli, F. Almonacid, “Spectral nature of soiling and its impact on multi-junction based concentrator systems,” Sol. Energy Mater. Sol. Cells 201, 110118, 2019.

  3. J. Montes-Romero, L. Micheli et al., “Impact of soiling on the outdoor performance of CPV modules in Spain,” AIP Conference Proceedings 2149, 060004, 2019. doi:
    Self-archiving: [Zenodo]

  4. M. Muller et al., “Indoor and Outdoor Test Results for "DUSST", a Low-Cost, Low-Maintenance PV Soiling Sensor,” 2019 IEEE 46th Photovoltaic Specialists Conference (PVSC), 2019.

  5. K. Ilse, L. Micheli et al., “Techno-Economic Assessment of Soiling Losses and Mitigation Strategies for Solar Power Generation,” Joule 3, 10, pp. 2303-2321, 2019 doi:
    PV-Magazine article: Link

  6. L. Micheli et al., “Extracting and Generating PV Soiling Profiles for Analysis, Forecasting and Cleaning Optimization,” IEEE Journal of Photovoltaics 10, 1, pp.197-205, 2020.
    Self-archiving: [TechRxiv]

  7. G. Smestad et al., “Modelling photovoltaic soiling losses through optical characterization,” Scientific Reports 10, 28, 2020.
    doi: [Open Access]
    Self-archiving: [Zenodo]
    Data Repository:

  8. L. Micheli et al., “Selection of optimal wavelengths for optical soiling modelling and detection in photovoltaic modules,” Sol. Energy Mater. Sol. Cells 212, 110539, 2020.
    Free 50-days access [Valid until June 9th, 2020]