Physics – Condensed Matter – Materials Science
Scientific paper
1998-11-14
Physics
Condensed Matter
Materials Science
5 pages of text, references, captions and 2 pages for figures
Scientific paper
We report photocarrier time-of-flight measurements in diode structures made of highly porous crystalline silicon. The corresponding electron and hole drift mobilities are very small compared to homogeneous crystalline silicon. They show two additional signatures of semiclassical transport that are directly limited by a porous geometry: the mobilities are dispersive (i.e. dependent on time), and have very little temperature-dependence. A pure, geometry-limited transport is surprising in the context of nanometer-scale models for electronic states such as quantum percolation or nanocrystal aggregation. In such models, confinement-induced energy shifts and localization are the dominant effects.
Fauchet P. M.
Purnachandra Rao N.
Schiff E. A.
Tsybeskov L.
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