Journal
CHEMPHYSCHEM
Volume 6, Issue 10, Pages 2153-2166Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/cphc.200500120
Keywords
insulators; mercury probes; monolayers; semiconductors; silicon
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Herein, the influence of silicon surface modification via Si-CnH2n+1 (n=10,12,76,22) monolayer-based devices on p-type < 100 > and n-type < 100 > silicon is studied by forming MIS (metal-insulator-semiconductor) diodes using a mercury probe. From current density-voltage (J-V) and capacitance-voltage (C-V) measurements, the relevant parameters describing the electrical behavior of these diodes ore derived, such as the diode ideality factor, the effective barrier height, the flatband voltage, the barrier height, the monoloyer dielectric constant, the tunneling attenuation factor, and the fixed charge density (N-f). It is shown that the J-V behavior of our MIS structures could be precisely tuned via the monolayer thickness. The use of n-type silicon resulted in lower diode ideality factors as compared to p-type silicon. A similar flatband voltage, independent of monoloyer thickness, was found, indicating similar properties for all silicon-monolayer interfaces. An exception was the C-10-based monoloyer device on p-type silicon. Furthermore, low values of Nf were found for monoloyers on p-type silicon (approximate to 6 x 10(11) cm(-2)). These results suggest that Si-C linked monoloyers on flat silicon may be a viable material for future electronic devices.
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