Schottky Solar Cells Based on Colloidal Nanocrystal Films
National Renewable Energy Laboratory · Colorado School of Mines
Abstract
We describe here a simple, all-inorganic metal/NC/metal sandwich photovoltaic (PV) cell that produces an exceptionally large short-circuit photocurrent (>21 mA cm(-2)) by way of a Schottky junction at the negative electrode. The PV cell consists of a PbSe NC film, deposited via layer-by-layer (LbL) dip coating that yields an EQE of 55-65% in the visible and up to 25% in the infrared region of the solar spectrum, with a spectrally corrected AM1.5G power conversion efficiency of 2.1%. This NC device produces one of the largest short-circuit currents of any nanostructured solar cell, without the need for sintering, superlattice order or separate phases for electron and hole transport.
Citation impact
- FWCI
- 41.48
- Percentile
- 100%
- References
- 34
Authors
7- JMJoseph M. LutherCorresponding
National Renewable Energy Laboratory, Colorado School of Mines
- MLMatt Law
Colorado School of Mines, National Renewable Energy Laboratory
- MCMatthew C. Beard
Colorado School of Mines, National Renewable Energy Laboratory
- QSQing Song
National Renewable Energy Laboratory, Colorado School of Mines
- MOMatthew O. Reese
Colorado School of Mines, National Renewable Energy Laboratory
Topics & keywords
- Photocurrent
- Materials science
- Solar cell
- Optoelectronics
- Energy conversion efficiency
- Electrode
- Nanocrystal
- Quantum dot solar cell
- Affordable and clean energy