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[1] Dual-ribavirin-imprinted composite membrane based on MOFs self-assembly design for selective separation studies
[2] Construction of nano-cage imprinted sites in MOFs-based membrane for precise identification and separation
[3] Fabrication of MOFs nanocomposite membranes via synergistic regulation strategy for selective separation of RBV
[4] Synergistic separation of imprinted composite membranes: Combining a porous graphene oxide skeleton with continuous MOFs nanolayers for superior selective separation
[5] Optimization of hollow ZIF-8/GO composite imprinted membrane synthesis by polyphenol etching technique and study of its selective separation performance for ribavirin
[6] Preparation of functionalized nanocomposite imprinted membranes based on magnetic Fe3O4/GO doping concept and their performance in selective separation
[7] Discontinuous cooperative imprinting idea based on MXene-nanocomposite membrane for high structurally stable recognition and separation of shikimic acid
[8] Precise identification and ultrafast transport of specific molecules with nanofluid-functionalized imprinted membrane
[9] Permselective and transparent wooden membrane with artemisinin- imprinted nanocages based on a MOFs@C3N4 self-assembly design
[10] Nanofluid-based wooden imprinted membranes with precise-designed nanocages for ultrafast and super-sensitive recognition and separation
[11] Membrane adsorbers with ultrahigh metal–organic framework loading for high flux selective separations to isomer
[12] Construction of anchor points in metal-organic framework-based membranes for high flux separations and high-efficient anticancer drug intermediates capture
[13] Scalable basswood-based PDA/GO-embedded self-assembly membrane within multilayered artemisinin-imprinted nanocage for high-selectivity cascading adsorption and transport
[14] Recognition and separation of artemisinin by two-dimensional GO/MXene laminar imprinted composite membranes constructed based on self-supporting technology
[15] Porous MOFs-based self-assembled membrane with specific rebinding nanocages for selective recognition and separation at molecular level
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