Chiral separation membranes have shown great potential for the efficient separation of racemic mixtures into enantiopure components for many applications, such as in the food and pharmaceutical industries; however, scalable fabrication of membranes with both high enantioselectivity and flux remains a challenge. Herein, enantiopure S‐poly(2,4‐dimethyl‐2‐oxazoline) (S‐PdMeOx) macromonomers were synthesized and used to prepare a new type of enantioselective membrane consisting of a chiral S‐PdMeOx network scaffolded by graphene oxide (GO) nanosheets. The S‐PdMeOx‐based membrane showed a near‐quantitative enantiomeric excess (ee) (98.3±1.7 %) of S‐(−)‐limonene over R‐(+)‐limonene and a flux of 0.32 mmol m−2 h−1. This work demonstrates the potential of homochiral poly(2,4‐disubstituted‐2‐oxazoline)s in chiral discrimination and provides a new route to the development of highly efficient enantioselective membranes using synthetic homochiral polymer networks.