Tp. Drusedau et al., THE HYDROGENATED AMORPHOUS SILICON NANODISPERSE METAL (SIMAL) SYSTEM - FILMS OF UNIQUE ELECTRONIC-PROPERTIES/, Journal of non-crystalline solids, 200, 1996, pp. 829-832
The a-Si:H/metal systems (SIMALS) were prepared as a-Si:H/V/a-Si:H or
a-Si:H/Mo/a-Si:H trilayers and multilayers of a-Si:H/Mo or a-Si:H/Ti b
y PCVD, sputtering and thermal evaporation, respectively. Structural i
nvestigations performed on these films by scanning force microscopy, c
ross-sectional TEM and X-ray techniques indicate that SIMALS contain m
etal nanoclusters and an intermixed silicon-metal phase. The temperatu
re dependence of the conductivity is described by sigma=sigma(0) exp[-
(T-0/T)(1/2)] with T-0 ranging 100 K to 4 X 10(4) K. An electric field
, typical of 100 V/cm applied to the samples in a coplanar electrode c
onfiguration results in an increase of the conductivity at room temper
ature from 10(-6) to 1 (Omega cm)(-1), which is reversible by annealin
g. This switching is accompanied by large fluctuation of the current.
The electrical behavior of the SIMALS is compared to in-situ measureme
nts on Mo-films on a-Si:H.