45 results on '"Ma, Faguang"'
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2. Preparation of MOFs-based molecularity imprinted composite membrane biomimetically modified by PDA and its selective separation performance and mechanism
3. Functionalized-MXene-based imprinted MOFs composite membranes for the selective separation of ribavirin
4. Synthesis of metal-organic framework hybrid nanocomposites based on MOFs@C3N4 with high selective separation ability for luteolin
5. Porous MOFs-based self-assembled membrane with specific rebinding nanocages for selective recognition and separation at molecular level
6. Boronate-affinity sol–gel-imprinted membranes with MOFs-functionalized rotary-evaporating layers for high-precision specific recognition
7. Mof-based basswood nanocomposite membrane of PDDA framework for ultrafast recognition and separation of ribavirin
8. Nanofluid-based wooden imprinted membranes with precise-designed nanocages for ultrafast and super-sensitive recognition and separation
9. Membrane adsorbers with ultrahigh metal–organic framework loading for high flux selective separations to isomer
10. Construction of anchor points in metal-organic framework-based membranes for high flux separations and high-efficient anticancer drug intermediates capture
11. Permselective and transparent wooden membrane with artemisinin-imprinted nanocages based on a MOFs@C3N4 self-assembly design
12. Continuous-imprinted-layer nanofiber membrane with MXene-based precise-designed nanocages for high-accuracy recognition and separation of shikimic acid
13. Precise identification and ultrafast transport of specific molecules with nanofluid-functionalized imprinted membrane
14. MOF-initiated imprinted self-supporting basswood membranes for precise recognition and separation of artemisinin
15. Scalable basswood-based PDA/GO-embedded self-assembly membrane within multilayered artemisinin-imprinted nanocage for high-selectivity cascading adsorption and transport
16. Precise identification and transport of specific molecules through framework-functionalized membranes with multiple binding sites
17. Discontinuous cooperative imprinting idea based on MXene-nanocomposite membrane for high structurally stable recognition and separation of shikimic acid
18. Design of molecularly imprinted nanocomposite membrane for selective separation of lysozyme based on double-faced self-assembly strategy
19. Double-imprinted mixed matrix membranes with polydopamine-induced nanocomposite for selective recognition and separation applications
20. Polydopamine-based multilevel molecularly imprinted nanocomposite membranes comprising metal organic frameworks for selective recognition and separation
21. Dual-imprinted mixed matrix membranes for selective recognition and separation: A synergetic imprinting strategy based on complex initiation system
22. Dual-imprinted organic/inorganic nanocomposite membranes with highly selective polydopamine-intimated nanostructures for pharmaceutically active compound separation
23. Membrane-associated molecularly imprinted surfaces with tailor-made SiO2@polydopamine-based recognition sites for selective separation of artemisinin
24. Three-dimensional macroporous wood-based selective separation membranes decorated with well-designed Nd(III)-imprinted domains: A high-efficiency recovery system for rare earth element
25. Accelerating the design of multilevel/hierarchical imprinted membranes for selective separation applications: A biomass-activated carbon/GO-based loading system
26. Three-dimensional basswood-based membrane with well-designed multilevel/hierarchical imprinting surface: A high-efficiency selective separation system
27. Double-layer-based molecularly imprinted membranes for template-dependent recognition and separation: An imitated core-shell-based synergistic integration design
28. Multilevel mineral-coated imprinted nanocomposite membranes for template-dependent recognition and separation: A well-designed strategy with PDA/CaCO3-based loading structure
29. Synthesis of metal-organic framework hybrid nanocomposites based on MOFs@C3N4 with high selective separation ability for luteolin
30. Mof-based basswood nanocomposite membrane of PDDA framework for ultrafast recognition and separation of ribavirin
31. Biomimetic Dual-Layer Imprinted UiO-66-Based Basswood Membranes for Ibuprofen Recognition and Separation
32. Nanofluid-based wooden imprinted membranes with precise-designed nanocages for ultrafast and super-sensitive recognition and separation
33. Permselective and Transparent Wooden Membrane with Artemisinin-Imprinted Nanocages Based on a Mofs@C3n4 Self-Assembly Design
34. Mof-Initiated Imprinted Self-Supporting Basswood Membranes for Precise Recognition and Separation
35. Continuous-Imprinted-Layer Nanofiber Membrane with MXene-Based Precise-Designed Nanocages for High-Accuracy Recognition
36. Precise Identification and Ultrafast Transport of Specific Molecules with Nanofluid-Functionalized Imprinted Membrane
37. MOF/Bilayer/Basswood Nanocomposite Membranes with Multi-Fold Imprinting Pattern for Specific Compound Recognition and Separation
38. Discontinuous Cooperative Imprinting Idea Based on Mxene-Nanocomposite Membrane for High Structurally Stable Recognition and Separation
39. Mesoporous, There-Dimensional Uio-66/Basswood-Based Nanocomposite Imprinted Membrane Decorated with Dual-Imprinted System for Highly Efficient Selective Separation
40. Precise Identification and Transport of Specific Molecules Through Framework-Functionalized Membranes with Multiple Binding Sites
41. Mixed matrix nanocomposite imprinted membranes with multilevel hierarchical structure for high-efficiency selective recognition and separation: A bioinspired dual-imprinted strategy
42. Multilevel/hierarchical nanocomposite-imprinted regenerated cellulose membranes for high-efficiency separation: a selective recognition method with Au/PDA-loaded surface
43. Multiple-functional molecularly imprinted nanocomposite membranes for high-efficiency selective separation applications: An imitated core-shell TiO2@PDA-based MIMs design
44. Freestanding flexible molecularly imprinted nanocomposite membranes for selective separation applications: an imitated core–shell PEI@SiO2-based MIM design
45. Freestanding flexible molecularly imprinted nanocomposite membranes for selective separation applications: an imitated core–shell PEI@SiO2-based MIM design.
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