Title

Transit Time Measurements of Charge Carriers in Disordered Silicons: Amorphous, Nanocrystalline, and Nanoporous

Author(s)/Creator(s)

Eric A. Schiff, Syracuse UniversityFollow

Document Type

Article

Date

2009

Keywords

a-Si:H; microcrystalline silicon; mobility; porous silicon

Language

English

Disciplines

Physics

Description/Abstract

We summarize published hole transit-time measurements for hydrogenated amorphous silicon, microcrystalline silicon, and light-emitting nanoporous silicon in terms of drift mobilities and dispersion parameters. For amorphous and microcrystalline silicon, the anomalously dispersive measurements are broadly consistent with multiple-trapping by bandtail traps with an exponential distribution of energy depths. One unexplained result has been that the trap emission prefactor frequency is about 1000 times smaller in microcrystalline silicon than in amorphous silicon. We present a model incorporating both detailed-balance effects and a previously proposed Meyer–Neldel variation of with trap-depth; the model accounts for the factor 1000. We discuss general trap distributions incorporating variations of both trap depth and prefactor frequency; a model for which dispersion is due entirely to prefactor variation accounts for measurements on nanoporous silicon.

Recommended Citation

"Transit time measurements of charge carriers in disordered silicons: amorphous, nanocrystalline, and nanoporous", E. A. Schiff, Phil. Mag. B 89, 2505-2518 (2009).

Source

harvested from author's c.v.

Creative Commons License

This work is licensed under a Creative Commons Attribution 3.0 License.