Sustainable, superhydrophobic membranes based on bacterial cellulose for gravity-driven oil/water separation

[Display omitted] •Bacterial cellulose and Needle-leaf bleached Kraft pulp were used to fabricate a hydrophobic complex membrane.•The membrane showed outstanding super hydrophobicity.•The membrane achieved oil/water separation with high efficiency by gravitational force alone. Bacterial cellulose (BC) is a substrate material with high purity and robust mechanical strength, but due to its small pore size and relatively expensive price, it is restricted as an oil-/water separation membrane. In this study, cheaper plant cellulose needle-leaf bleached kraft pulp (NBKP) was added to BC to increase the pore size of the composite membrane, and a superhydrophobic/superoleophilic membrane was prepared for oil-/water separation. The modified membrane surface displayed a petal-like micro-structure and a water contact angle (WCA) of 162.3°, while the oil contact angle was decreased to 0°. What’s more, the membrane exhibited excellent oil-/water separation under gravity, recyclability, and a separation efficiency (>95 %), and it was both pH and salt resistant. The membrane also remained durably hydrophobic after 10 separation cycles. And the separation methodology is expected to be highly energy-efficient.