This essay contains the diazobenzene-derivated helicenes of dual mode and further discussion of the completely developed helicene in the photoswitch in our lab and the performance of the behavior of photochemistry. Chiral diazobenzene-derivated helicene 1 contaons 2 parts of photoswitch. One is the switch in the (P)-(M) form of chirochromic helicene; the other one is the switch between the cis of photochromic azobenzene and the transformation. When helicene excites to the excrtacl state because it absorb the energy from at the ground state, the double bond at connect up and down point will transform to a diradical state. And this diradical excited state will goes back to the ground state to release the energy by 2 methods: First of all, the diradical part formed after absorb the energy may release from molecular rotate to another isonner due to the disappearance of double bond characteristic. Secondly, the absoured energy intends to go back to the ground state by by light because the rotation energy gap is bigger. The part of azobenzene, on the other hand, uses illuminated N-N double bond switching between cis and transformation. This essay may get diastereomers (P/M = 4/96) in a form very much closed to a single M. Then, it illuminates the light with a wavelength of 365 nm which lasts 4 hours and may reach (trans/cis = 67/32) photoselectivity; when it illuminates the light with a wavelength of 435 nm for 7 hours, may gain disatereomers (trans/cis = 99/1) in a form very much closed to single trans. At the part of liquid crystal dopond , we tried to change different condensity and the process of heating and cooling.We observe its texture through partial optical microscope . And it contains cholestic liquid crystal such as fingerprint shape, fan-like shape, and polygonal shape. We may also the light with different wavelength illuminates wedge cell added with sample packing to conclude that the pitch change caused by the switch of the (P)-(M) form is greater than the isomer between cis-trans form. By illuminating the light with different wavelength, we may selectively isomerize each funtional group, slightly orgnize the stereochmical structure of the entire molecule, and change the way of the arranfement of cholectic liquid crystal. So far as we know, our system is the first example which combines helicene and azobenzene-derivated. And we believe that it has great potential at the development and the application of liquid crystal and photoswitch in the future.