Biofouling is an essentially critical problem on marine industry, food industry and biomaterials. Anti-biofouling functional groups have been investigated to reduce biofouling formation; zwitterionic materials are one of the effective functional groups. It is a challenge to modify the zwitterionic functional groups on a hydrophobic surface because of the high hydrophilicity of zwitterionic materials. In general, chemical grafting method is usually used, but the grafting process is time-consuming and the uniformity of chemical grafting is not easily controlled in a larger scale. To solve the above mentioned problems, we synthesized the amphiphatic random co-polymers containing of zwitterionic moiety to coat on the hydrophobic membrane physically. We controlled the various ratios of carboxybetaine and octadecyl acrylate in copolymers. After coating the zwitterionic copolymers on polypropylene membrane surface, the hydrophilicity of membrane increases along with the zwitterionic content increases, but the coating stability decreases. We found there is an optimal window for reducing the macromoleular fouling formation. While we used the copolymer containing of 26% zwitterionic moiety to coat on membrane, the biofoulings of human blood cells, E.coli and HT-1080 cells reduce significantly. We provide guidance on physical coating of amphiphatic antifouling copolymer on hydrophobic surface.