for oil/water separation. Among the utilized polymers, PLA has attracted much attention as a biodegradable and disposable material. [6][7][8][9] However, the oil wettability and mechanical properties of PLA electrospun membranes are not ideal, which limits its wide applications. [8,9] In addition, the diameter and roughness of the electrospun membranes also affect its separation effects. Incorporating fillers into polymer matrix is one of the effective and simple approaches to overcome the drawbacks mentioned above and adjust the membrane performance. Various inorganic fillers such as SiO 2 , [10,11] halloysite nanotubes, [12,13] ZnO, [14,15] and graphene [16,17] were added into the polymers to form hybrid membranes. Liu et al. [18] reported that the wettability of the poly(d,l-lactide) matrix was improved by the introduction of microcrystalline cellulose. Ji et al. [15] reported that the addition of nanoscale-ZnO (N-ZnO) at 2 wt% increased the elastic modulus of electrospun PLA mats from 5.16 to 15.59 MPa. In addition, the N-ZnO added in the mats enhanced the toughness of PLLA/ZnO mats to some extent.In this study, we have explored the possibility of fabricating high-efficient oil/water separation membranes with improved performance by incorporating metal-organic framework ZIF-8 with PLA matrix using electrospinning method. As one of the most important primary member of metal-organic frameworks, ZIF-8 is constructed by linking Zn 2+ cations and bridging 2-methylimidazolte anions to yield 3D extended tetrahedral framework structure. [19] The advantages of ZIF-8 such as highly accessible pores, great surface area, exceptional thermal and chemical stability, easy activation, coupled with remarkable chemical resistance to boiling water and alkaline aqueous solutions make it a good candidate for separation. [20,21] Besides, ZIF-8 with flexible structures has a better affinity with polymer chains since the organic linkers in MOF can provide stronger interaction with polymer chains, which may result in positive effects on the polymer performance. [22] Herein, we introduced the ZIF-8 nanoparticles into PLA matrix to fabricate the fibrous nanocomposite membranes. The surface morphology, wettability, mechanical properties, and oil/water separation ability of the composite fibers have been systematically studied.In this study, the nanoparticles of metal-organic framework ZIF-8 are incorporated into the poly(lactic acid) (PLA) to prepare the nanocomposite electrospun membrane. The diameter and the surface roughness of the fibers can be successfully controlled by increasing the content of ZIF-8 in the membranes. The prepared PLA/ZIF-8 membranes have increased oil wettability and significantly improved mechanical property compared with pure PLA membrane. The tensile strength, stain at break of PLA/ZIF-8 membrane with 0.5 wt% ZIF-8 are increased to 5.02 MPa and 88.81% compared to 2.77 MPa and 57.89% for pure PLA membranes, respectively. The PLA/ZIF-8 membranes are proved to be good candidate for oil/water separation with high ...