Hierarchical porous 3D carbon nanofiber mats from PAN/PVP/PMMA for oil–water separation Available to Purchase

By utilizing electrospinning technology followed by subsequent controlled carbonization processes, hierarchical porous three-dimensional carbon nanofiber mats (HPCNFMs) were successfully fabricated. Within the ternary blend, polyacrylonitrile served as the carbon source, while polyvinylpyrrolidone and polymethyl methacrylate were acted as pore-forming agents. Precise control over the pore size of the carbon fibers synthesized from the ternary blend system was achieved by leveraging differences in solubility. Among these, HPCNFM-3 displayed the most outstanding performance, combining robust mechanical strength and good hydrophobicity (water contact angle ≈ 141.4°) with a hierarchical pore structure. It achieved a high oil flux of 7723.80 L m⁻² h⁻¹, exceptional oil–water separation efficiency (>99.9%), and remarkable oil adsorption capacity (able to absorb 69–131 times its own weight). In addition, this material demonstrated superior flexibility. These superior performance attributes establish HPCNFM-3 as a highly promising material for advanced oil–water separation applications under diverse environmental conditions.