Abstract
We report a novel method of confining a photoconducting liquid crystalline material using a polymer templating approach. The attractive feature of this approach is that the magnitude of the photocurrent of the photoconducting material does not diminish, i.e. it is unaltered by the polymer matrix. The results are compared with another method of encapsulation that was recently reported and wherein the photoconductivity decreases upon having the photoconducting material in the polymer matrix. The difference in the behaviour between the two methods is explained using a nanophase segregation model. The method described is particularly suitable for creating patterned photoconductors.
Notes
†Earlier researchers [Citation Citation11, 13] have referred to this phase in 8PNP-O12 as a smectic B phase. But our Xray studies [Citation14] showed that this phase possesses long range ordering in all three dimensions and therefore should be labelled crystal B phase. It must be pointed out, however, that due to the remaining rotational degree of freedom of the molecules, this phase retains certain smectic-like features.