Author:
Chazalvel J.-N.,Ozanam F.
Abstract
ABSTRACTn-Si photoanodes have been found to exhibit photocurrent multiplication during the first seconds of exposure to a fluoride-free, acidic electrolyte. This shows that, in contrast with earlier hypotheses, photocurrent doubling is not directly related to the presence of fluoride in the electrolyte, but rather must arise from an electron injection mechanism associated with the Si-H bonds initially present at the Si surface. It also suggests that the electroluminescence which has been observed during the anodic oxidation of porous silicon most probably stems from the same electron-injection mechanism.
Publisher
Springer Science and Business Media LLC
Cited by
10 articles.
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1. Electroluminescence of Porous Silicon;Handbook of Porous Silicon;2018
2. Electroluminescence Devices (LED);Porous Silicon: From Formation to Applications: Optoelectronics, Microelectronics, and Energy Technology Applications, Volume Three;2016-01-07
3. Nanocrystalline Si EL Devices;Nanostructure Science and Technology;2009
4. Silicon and porous silicon;Handbook of Electroluminescent Materials;2004-06
5. Enhancement of the quantum efficiency and stability of electroluminescence from porous silicon by anodic passivation;Applied Physics Letters;1998-10-05