Ak. Chakraborty et al., ORGANOMETALLIC PHOTOCONDUCTORS - DARK AND PHOTOCONDUCTIVE STUDIES ON FERROCENE AND SOME OF ITS DERIVATIVES, Bulletin of the Chemical Society of Japan, 67(3), 1994, pp. 607-611
The dark conduction properties of ferrocenedicarboxylic acid have been
studied as a function of voltage at different sample-temperatures by
using sandwich type of cell configuration. The analysis of the results
was based on the space charge limited conduction (SCLC) theory. The t
rap distribution in this material has been found to be exponential typ
e as was observed in case of ferrocene and ferrocenecarboxylic acid. T
he dark activation energy (ohmic) of these ferrocene derivatives incre
ases with the gradual substitution of -COOH group in the ferrocene rin
g system. In contrast to the nonextrinsic nature of ferrocenecarboxyli
c acid, ferrocenedicarboxylic acid has been observed to be extrinsic,
similar to ferrocene. The photoconductivity in these materials was stu
died as a function of temperature and the intensity of exciting light
source. The distribution of traps in these materials has been determin
ed from the intensity dependence of photocurrent and these results hav
e been compared with the results of dark conductivity measurements.