In the first part of this thesis, incorporation of a laterally substituted peripheral into the disc-like hexaynylbenzene to exhibit restricted rotation of the unique side-arm was performed to enhance the π-π interactions for stabilization of the ND phase. At the same time, the lateral substitution should lower the transition temperatures. Compared with the model compound, hexa(hexyloxyphenylethynyl)benzene, moving the alkoxy chains of one side-arm from para- to meta- or ortho-position significantly lowered the transition temperatures. Moreover, combining the effects caused by para-, meta-, and ortho-alkoxy chains can decrease the melting temperature was further lowered. In series 2, the synthesis and mesogenic properties of rigid y-shape molecules were explored. By introducing a biphenyl unit onto a bent thiophene-based mesogen, a rigid y-shaped molecule, 2-(4-hexyloxy- phenyl)-3,5-(4’-hydroxybiphenylethynyl)thiophene was obtained. The rigid lateral substitution did not cause the loss of liquid crystallinity and on the contrary, an enantiotropic nematic phase was achiered.