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2020
Journal Article
Titel
Postdeposition Ligand Exchange Allows Tuning the Transport Properties of Large-Scale CuInSe2 Quantum Dot Solids
Abstract
Colloidal quantum dots assembled into quantum dot solids usually suffer from poor conductivity. The most common charge transport mechanism through the solid is hopping transport where the hopping probability depends on the barrier type (stabilizing/connecting ligand molecule) and the interparticle distance. It is demonstrated that the electronic structure of the ligand molecule strongly alters the transport behavior through CuInSe2 quantum dot solids. Transport measurements and optical-pump terahertz-probe experiments after a ligand exchange to fully conjugated molecules show an increase of the conductivity by orders of magnitude, as well as a change of the hopping transport mechanism. This change is not due to a reduced interparticle distance, but the electronic structure: the obtained frequency-dependent complex conductivities point toward an efficient hole transport enabled by an alignment of the quantum dot valence bands and ligand states.
Author(s)
Gorris, Friederieke E.S.
Institute for Physical Chemistry, University of Hamburg, Martin‐Luther‐King Platz 6, 20146, Hamburg, Germany
Deffner, Michael
Institute for Physical Chemistry, University of Hamburg, Martin‐Luther‐King Platz 6, 20146, Hamburg, Germany Institute for Anorganic and Applied Chemistry, University of Hamburg, Martin‐Luther‐King Platz 6, 20146, Hamburg, Germany The Hamburg Centre for Ultrafast Imaging, 22761, Hamburg, Germany
Priyadarshi, Shekhar
Institute for Physical Chemistry, University of Hamburg, Martin‐Luther‐King Platz 6, 20146, Hamburg, Germany
Klinke, Christian
Institute for Physical Chemistry, University of Hamburg, Martin‐Luther‐King Platz 6, 20146, Hamburg, Germany Department of Chemistry, Swansea University, Swansea, SA2 8PP, UK Institute of Physics, University of Rostock, Albert‐Einstein‐Straße 23, 18059, Rostock, Germany
Weller, Horst
Institute for Physical Chemistry, University of Hamburg, Martin‐Luther‐King Platz 6, 20146, Hamburg, Germany The Hamburg Centre for Ultrafast Imaging, 22761, Hamburg, Germany Fraunhofer Center for Applied Nanotechnology CAN, Grindelallee 117, 20146, Hamburg, Germany