Silicon nanocrystals (Si NCs) embedded in Si-based dielectrics provide a Si-based high band gap material (1.7 eV) and enable the construction of all-crystalline Si tandem solar cells. However, Si nanocrystal formation involves high-temperature annealing which deteriorates the properties of any previously established selective contacts. The inter-diffusion of dopants during high-temperature annealing alters Si NC formation and limits the built-in voltage. Furthermore, most devices presented so far also involve electrically active bulk Si and therefore do not allow a clear separation of the observed photovoltaic effect of the nanocrystal layer from that of the bulk Si substrate. A membrane route is presented for nanocrystal based p–i–n solar cells to overcome these limitations. In this approach, the formation of both selective contacts is carried out after hightemperature annealing and therefore not affected by the latter. p–i–n Solar cells are investigated with Si NCs embedded in silicon carbide in the intrinsic region. Device failure due to damaged insulation layers is analyzed by electron- and light beam induced current measurements. Open-circuit voltages of 176mV are shown for the NC layer. An optical model of the device is presented for improving the cell current. Comparison of the optical limit and the measured short circuit current demonstrates that the device is governed by recombination within the absorber layer. Vertical p–i–n solar cell with a Si nanocrystal thin film in the intrinsic region and selective electron and hole contacts by doped amorphous silicon carbide (a-SixC1x:H).
|Titolo:||Silicon nanocrystals from high-temperature annealing: Characterization on device level|
|Autori:||Philipp Löper; Mariaconcetta Canino; Julian López-Vidrier; Manuel Schnabel; Florian Schindler; Friedemann Heinz; Anke Witzky; Michele Bellettato; Marco Allegrezza; Daniel Hiller; Andreas Hartel; Sebastian Gutsch; Sergi Hernández; Roberto Guerra; Stefano Ossicini; Blas Garrido; Stefan Janz; Margit Zacharias|
|Data di pubblicazione:||2013|
|Digital Object Identifier (DOI):||http://dx.doi.org/10.1002/pssa.201200824|
|Appare nelle tipologie:||1.1 Journal article|