| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1313885 | Journal of Fluorine Chemistry | 2013 | 6 Pages |
•Novel fluorinated N-heterocyclic liquid crystals were synthesized.•These compounds display broad mesophase range and high clearing points.•The mesophase behaviour can be adjusted by using different N-heterocycles.•The novel liquid crystals can use as high performance liquid crystal materials.
A new class of liquid crystals was formed with N-heterocycles as the terminal group, such groups as a 3,4-difluoropyrrole, 3,3,4,4-tetrafluoropyrrolidine, or pyrrolidine. Their properties were modified by varying the terminal heterocycles and/or the length of the alkyl chains on the cyclohexane liquid crystal building block. A comparison of the non-fluorinated and fluorinated pyrrolidine and fluorinated pyrrole as terminal group in the cyclohexane liquid crystals was studied. The mesophase behaviour was affected by altering the polarity of the terminal N-heterocycle. Compounds n/m-4H having the terminal pyrrolidine show a nematic phase. Comparatively, compounds 3/2-4F and 5/2-4F, having a fluorinated pyrrolidine, exhibit SmG phase. With 3,4-difluoropyrrole as terminal group, n/m-2F exhibit the broadest nematic phase range and good thermal stability, thus meeting the criterion for high performance liquid crystals materials.
Graphical abstractA new class of liquid crystals was synthesized with N-heterocycles as the terminal group, such groups as a 3,4-difluoropyrrole, 3,3,4,4-tetrafluoropyrrolidine, or pyrrolidine. Their properties were modified by varying the terminal heterocycles and/or the length of the alkyl chains on the cyclohexane liquid crystal building block. These new N-heterocycles liquids crystals display broad mesophase range as well as high clearing points which suggests use as high performance liquid crystal materials.Figure optionsDownload full-size imageDownload as PowerPoint slide
