Hysteresis in perovskite-absorber solar cells Eva L. Unger,1,2 Eric T. Hoke,2 Colin D. Bailie,2 William H. Nguyen,2 Andrea R. Bowring,2 Thomas Heumüller,2 M. Greyson Christoforo2 and Michael D. McGehee2 1 2 - Staircase voltammetry - Document - PDFSEARCH.IO

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	Hysteresis in perovskite-absorber solar cells Eva L. Unger,1,2 Eric T. Hoke,2 Colin D. Bailie,2 William H. Nguyen,2 Andrea R. Bowring,2 Thomas Heumüller,2 M. Greyson Christoforo2 and Michael D. McGehee2 1 2 Add to Reading List Document Date: 2015-03-07 13:32:48 Open Document File Size: 408,18 KB Share Result on Facebook Facility Lund University / Stanford University / / IndustryTerm device technologies / solar cell devices / carrier density / thin film devices / cells using organo-metal-halides / charge carrier distributions / perovskite-absorber devices / perovskite-absorber solar cell device / charge carrier accumulation / / Organization Division of Chemical Physics / Sweden Department of Materials Science and Engineering / Lund University / Stanford University / Department of Chemistry / / Person E. R. Dohner / M. D. McGehee / H. I. Karunadasa / Eva L. Unger / E. T. Hoke / D. J. Slotcavage / A. R. Bowring / / SportsLeague Stanford University / / Technology device technologies / / SocialTag Solar cells Measurement Quantum efficiency Spectroscopy Voltammetry Perovskite Staircase voltammetry Electroanalytical methods Scientific method Chemistry

Hysteresis in perovskite-absorber solar cells Eva L. Unger,1,2 Eric T. Hoke,2 Colin D. Bailie,2 William H. Nguyen,2 Andrea R. Bowring,2 Thomas Heumüller,2 M. Greyson Christoforo2 and Michael D. McGehee2 1 2Add to Reading List