We studied the ac electrical (20 Hz less than or equal to nu less than
or equal to 1GHz) and magnetic properties of the molecular semiconduc
tors lithium phthalocyanine (LiPc) and lithium phthalocyanine iodide (
LiPcI) at temperatures 1.5 K less than or equal to T less than or equa
l to 300 K. The frequency and temperature dependence of the complex ac
conductivity suggest polarons as the dominant species of charge carri
ers. The higher conductivity of the iodine salt can be attributed to a
n enhanced mobility of the polaronic charge carriers due to a better o
verlap of the Ir-orbitals along the stacking direction of the molecule
s. Up to 300 K the de conductivity can be described by sigma(dc) propo
rtional to exp(-(T-0/T)(1/2)), i.e. quasi one-dimensional tunneling of
charge carriers is the dominant conduction process in both compounds.
Preliminary electron spin resonance (ESR) experiments were performed
on LiPc. A single narrow, lorentzian shaped line is observed. Below 30
K a significant decrease in linewidth appears which may indicate the
onset of magnetic order or dimerization.