Abstract
Proton NMR is employed to determine director distributions in a hydrogen-bonded liquid crystal gel in the presence of a magnetic field. The samples consist of the mesogen 8CB mixed with small percentages of gelator, which forms a hydrogen-bonded network when the sample is cooled below the gelation point in the isotropic liquid. Since the gelation occurs above the clearing point, a non-oriented random director configuration is frozen in. The configuration of the hydrogen-bonded network is found to be isotropic. It fixes a preferential random local orientation of the nematic director, even in the presence of an external magnetic field of a few Tesla. The NMR spectra of the samples give information on orientation and order in such systems. A simple model for the director field is provided.