To improve the surface anti-adhesion property of food storage and processing materials against Shewanella putrefaciens biofilm of aquatic products, the ZnO-PDMS films were prepared by tape casting method with polydimethylsiloxane (PDMS) as filmogen, ZnO micro-nanoparticles with different micro-nanophology prepared by hydrothermal synthesis method as modifiers, and antibiofilm property and mechanism of the ZnO-PDMS films against Shewanella putrefaciens biofilm were studied. The results showed that the hydrophobic and oleophobic properties of PDMS films were affected by micromorphology of modified ZnO micro-nanoparticles. Using pompon-shaped and flower-shaped ZnO micro-nanoparticles as modifiers, ZnO-PDMS superamphiphobic films were prepared, and their contact angles of water and oil were both beyond 150°. There was a positive correlation between antibacterial adhesion and amphiphobic of the films. With the extension of culture time, Zn²⁺ released from ZnO film, damaged the bacterial cell membrane and inhibited ATP and AKP enzyme activity in the cell, resulting in bacterial metabolic disorder and death. Compared with PDMS films modified by rod-shaped and pompon-shaped micro-nanoparticles, flower-shaped ZnO-PDMS film had stronger anti-adhesion and antibacterial property. Formation and growth of Shewanella putrefaciens biofilm could be effectively inhibited by the ZnO-PDMS film with both surper-amphiphobic and antibacrobic properties. This study aimed to provide technical support for development of antibiofilm materials.