Toner transfer efficiency in electrophotography and the resulting image quality are influenced by the resistivity of the substrate. Resistivity measurements are, however, often made using electric fields that are lower than those used in the transfer of toner in electrophotography. The dependence of surface and volume resistivity on electric field strength, including fields similar to those utilized in the toner transfer of electrophotographic printers, has been studied. Resistivities of paper samples with differences in grammage, filler content, and calendering were evaluated utilizing electrodes with a geometry in accordance with the ASTM D257 (volume resistivity) and raker-type electrodes (surface resistivity) applying electric fields of between 10 2 and 105 V/cm. The surface resistivity and especially the volume resistivity of paper were found to be strongly dependent on the electric field strength, the characteristics of this dependence being influenced by paper properties. The study of the field dependence further indicated that the Poole-Frenkel type of hopping drift of ions could be applied to conduction in paper, although the electric field dependence was overlapped by paper compression effects. Shottky's model was considered also, but it seems that the role of contact effects is small.
[1]
Joseph C. Sheflin,et al.
Electrostatic adhesion of ion and triboelectric-charged particles
,
2005
.
[2]
R. Veregin,et al.
Effects of coating and compaction on the Poole-Frenkel behavior of xerographic carriers
,
2001
.
[3]
I. Chen,et al.
Electrical characterization of semi-insulating devices for electrophotography
,
2000
.
[4]
M. C. Zaretsky.
Performance of an electrically biased transfer roller in a Kodak ColorEdgeTM CD copier
,
1993
.
[5]
E. J. Murphy,et al.
The dependence of the conductivity of cellulose, silk and wool on their water content☆
,
1960
.