We describe a novel experimental approach based on the use of solid electro
des to prepare capacitor arrangements with a thickness in the order of 10 n
m containing layers of grafted polymers. It enables study of the molecular
dynamics in ultrathin grafted layers of e.g. poly(gamma -benzyl-L-glutamate
(PBLG) by means of dielectric spectroscopy. The results of our method are
compared to those obtained by evaporating the upper electrode on the polyme
r film and to measurements on the bulk material. In the bulk, two relaxatio
n processes are observed which are assigned to fluctuations of the helical
main chain as a whole (chopstick motion and to fluctuations of the polar si
de groups. The latter are found to be broadened and to be slowed down in th
e grafted layer, while the chopstick motion is, depending on the thickness
of the grafted layer, two orders of magnitude faster compared with the bulk
. This is presumably due to a higher order in the grafted layer. The dielec
tric dispersion Delta epsilon of the side chain motion can be described by
assuming free fluctuations of these chains, whereas the model of Wang and P
ecora has been applied for the chopstick motion. After swelling the grafted
polymer layer, the side chain fluctuation becomes faster, while the chopst
ick motion is not influenced.