Based on the liquid crystalline polymer theory,a kind of polyacrylate was synthesized by choosing biphenyl group as rigid nucleus of mesogenic unit and hexylidene as flexible spacing group.

Hydrogen-bonded liquid crystalline polymers characterized by its unique dynamic functions and its simplicity of structure adjustment and easily modification are formed from chemically modified polymer complex by means of hydrogen-bond.

Based on the morphology and reinforcement mechanism of liquid crystalline polymer/thermoplastic in-situ reinforcement composite materials,the recent developments in this field are reviewed.

Polyblend fibers from liquid crystal polymers and polypropylene (Ⅰ): the formation of fiber structure;

Polyblend fibers from liquid crystal polymers and polypropylene Ⅱ:drawing behavior of the polyblend fibers;

Polyblend fibers from liquid crystal polymers and polypropylene(Ⅲ):physical and mechanical properties of the polyblend fibers;

6-hydroxy-2-naphthoic acid used as intermediate of liquid crystal polymers with broad export perspective;

The main task of molecule design of main chain liquid crystalline polymers in the future are brought forward according to the difference between lyotropic and thermotropic main chain liquid crystal polymers structures.