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金朝霞课题组重点探索具有多层次结构的多功能聚合物纳米复合材料的构筑方法,及其结构与性质关系。主要包括: (1)限制空间中嵌段共聚物微相分离所形成的复杂纳米结构; (2)基于聚多巴胺和多酚化合物的多功能复合材料; (3)纤维素纳米晶自组装形成的功能材料

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1. F. Tang, X. B. Gao and Z. X. Jin* “Pre-leaching strategy for constructing Co2P/Co@P/N-doped carbon towards enhanced bifunctional oxygen electrocatalysis”Electrochimica Acta 2020, 337, 135807. 2. K. Feng, X. B. Gao, Z. H. Gu, Z. X. Jin*, Improving homogeneity of iridescent cellulose nanocrystal films by surfactant-assisted spreading self-assembly ACS Sustanable Chem. Eng. 2019, 7, 19062-19071. 3. X. B. Gao, F. Tang, Z. X. Jin*, Pt-Cu bimetallic nanoparticles loaded in the lumen of halloysite nanotubes Langmuir 2019, 35, 14651-14658 4. F. Tang, L. Y. Liu, H. X. Wang, X. B. Gao, Z.X. Jin*, The combination of metal-organic frameworks and polydopamine nanotubes aiming for efficient one-dimensional oxygen reduction electrocatalyst J. Colloid and Interface Sci., 2019, 552, 351-358. 5. W. Han, F. Tang and Z. X. Jin*, Free-standing polydopamine films generated in the presence of different metallic ions: the comparison of reaction process and film properties RSC Advances, 2018, 8, 18347. 6. X. L. Gao, Z. X. Jin*, Iridescent Chiral Nematic Cellulose Nanocrystal/Polyvinylpyrrolidone Nanocomposite Films for Distinguishing Similar Organic Solvents,ACS Sustanable Chem. Eng. 2018, 6, 6192-6202. 7. Y. Li, F. Tang, H. X. Wang, J. R. Feng and Z. X. Jin*, Au–Ag and Pt–Ag bimetallic nanoparticles@halloysite nanotubes: morphological modulation, improvement of thermal stability and catalytic performance,RSC Advances, 2018, 8, 10237. 8. H. L. Fan, J. H. Wang, and Z. X. Jin*, Tough, Swelling-Resistant, Self-Healing, and Adhesive Dual-Cross-Linked Hydrogels Based on Polymer−Tannic Acid Multiple Hydrogen Bonds,Macromolecules 2018, 51(5), 1696-1705. 9. F. Tang, H. T. Lei, S. J. Wang, H. X. Wang and Z. X. Jin*, Novel Fe-N-C catalyst for efficient oxygen reduction reaction based on polydopamine nanotubes, Nanoscale 2017, 9, 17364. 10. H. L. Fan, J. H. Wang, Q. Y. Zhang and Z. X. Jin*, Tannic acid-based multifunctional hydrogels with facile adjustable adhesion and cohesion contributed by polyphenol supramolecular chemistry, ACS Omega 2017, 2, 6668-6676. 11. Z. H. Wang, F. Tang, H. L. Fan, L. Wang and Z.X. Jin*, Polydopamine Generates Hydroxyl Free Radicals under Ultraviolet Light Illumination,Langmuir 2017, 33, 5938-5946. 12. Z. H. Wang, J. Li, F. Tang, J. Lin and Z. X. Jin*, Polydopamine nanotubes-templated synthesis of TiO2 and its photocatalytic performance under visible light RSC Advances, 2017, 7, 23535. 13. H. L. Fan, L. Wang, X. D. Feng, Y. Z. Bu, D. C. Wu and Z. X. Jin*, Supramolecular Hydrogel Formation Based on Tannic Acid Macromolecules 2017, 50 (2), 666–676. 14. R. Feng, H. L. Fan, D. A. Zha, L. Wang and Z. X. Jin*, Characterizations of the Formation of Polydopamine-coated Halloysite Nanotubes in Various pH Environments,Langmuir 2016, 32, 10377-10386. 15. X. Jin* and H. L. Fan, The Modulation of Melanin-like Materials: Methods, Characterization and Applications,Polymer International 2016, 65, 1258-1266. 16. L. Li, H. L. Fan, L. Wang and Z. X. Jin*, Does Halloysite Behave Like an Inert Carrier for Doxorubicin? RSC Advances 2016, 6, 54193. 17. H. Xue, W. C. Zheng, L. Wang and Z. X. Jin*, Scalable Fabrication of Polydopamine Nanotubes Based on Curcumin Crystals,ACS Biomaterials Science & Engineering 2016, 2, 489-493. 18. H. Xue, Y. Z. Xu and Z. X. Jin*, Interfacial Interaction in Anodic Aluminum Oxide Templates Modifies Morphology, Surface area and Crystallization of Polyamide-6 Nanofibers,Langmuir 2016, 32(9), 2259-2266. 19. C. Zheng, H. L. Fan, L. Wang and Z. X. Jin*, Oxidative self-polymerization of dopamine in acidic environment,Langmuir 2015, 31, 11671-11677. 20. L. Fan and Z. X. Jin*, Hierarchical porous polycaprolactone microspheres generated in a simple pathway combining nanoprecipitation and hydrolysis,Chem. Commun. 2015, 51, 15114-15117. 21. L. Fan, X. Yu, Y. Liu, Z. J. Shi, H. H. Liu, Z. X. Nie, D. C. Wu and Z. X. Jin*,Folic acid/polydopamine nanofibers show enhanced ordered-stacking via π-π interaction,Soft Matter 2015, 11, 4621-4629. 22. L. Hou, H. L. Fan and Z. X. Jin*, Spiral and mesoporous block polymer nanofibers generated in confined nanochannels,Macromolecules 2015, 48, 272-278. 23. X. Jin* and H. L. Fan, Self-assembly of nanostructured block copolymer nanoparticles,Soft Matter 2014, 10, 9212-9219. 24. Yu, H. L. Fan, L. Wang and Z. X. Jin*, Formation of polydopamine nanofibers with the aid of folic acid,Angew. Chem. Int. Ed. 2014, 53, 12600-12604. 25. Yu, H. L. Fan, Y. Liu, Z. J. Shi and Z. X. Jin*, Characterization of carbonized polydopamine nanoparticles suggests ordered supramolecular structure of polydopamine,Langmuir 2014, 30, 5497-5505. 26. L. Fan and Z. X. Jin *, Selective swelling of block copolymer nanoparticles: size, nanostructure and composition,Macromolecules 2014, 47, 2674-2681. 27. L. Fan and Z. X. Jin *, Freezing polystyrene-b-poly(2-vinylpyridine) micelle nanoparticles with different nanostructures and sizes,Soft Matter, 2014, 10, 2848-2855. 28. Wang, S. L. Mei, Z. X. Jin*, The influences of cooperative swelling and coordination on patterned decoration of gold on block copolymer nanospheres,Macromol. Chem. Phys. 2013, 214, 2579-2583. 29. S.L. Mei, L. Wang, X. D. Feng, Z. X. Jin*, Swelling of block copolymer nanoparticles—a process combining deformation and phase separation,Langmuir 2013, 29, 4640-4646. 30. S. L. Mei, Z. X. Jin*, Mesoporous block-copolymer nanospheres prepared by selective swelling,Small 2013, 9, 322-329. 31. L. Mei, X. D. Feng, Z. X. Jin*, Polymer nanofibers by controllable infiltration of vapour swollen polymers into cylindrical nanopores,Soft Matter, 2013, 9, 945-951. 32. D. Feng, S. L. Mei, Z. X. Jin*, Wettability transition induced transformation and entrapment of polymer nanostructures in cylindrical nanopores,Langmuir 2011, 27, 14240-14247. 33. L. Mei, X. D. Feng, Z. X. Jin*, Fabrication of Polymer Nanospheres Based on Rayleigh Instability in Capillary Channels,Macromolecules 2011, 44, 1615-1620. 34. Zhang, D. A. Zha, T. T. Du. S. L. Mei, Z. J. Shi, Z. X. Jin *, Formation of superhydrophobic microspheres of poly(vinylidene fluoride-hexafluoropropylene) /graphene composite via gelation,Langmuir 2011, 27, 8943-8949. 35. A. Zha, S. L. Mei, Z. Y. Wang, H. J. Li, Z. J. Shi and Z. X. Jin*, Superhydrophobic polyvinylidene fluoride/graphene porous materials,Carbon 2011, 49, 5166-5172. 25. 36. K. Zhao, Z. Y. Wang, Z. J. Shi, Z. N. Gu, Z. X. Jin*, Filling double-walled carbon nanotubes with WO3 and W nanowires via confined chemical reactions, Nanosci. Nanotechnol. 2011, 11, 2278-2282. 37. L. Fan, L. L. Wang, K. K. Zhao, N. Li, Z. J. Shi, Z. G. Ge, and Z. X. Jin*, Fabrication, Mechanical Properties, and Biocompatibility of Graphene-Reinforced Chitosan Composites,Biomacromolecules 2010, 11, 2345-2351. 38. C. Zhao, J. Yin, X. D. Feng, Z. J. Shi, Z. G. Ge and Z. X. Jin*, A biocompatible chitosan composite containing phosphotungstic acid modified single-walled carbon nanotubes, Nanosci. Nanotechno. 2010, 10, 7126-7129. 39. D. Feng, Z. X. Jin*, Spontaneous Formation of Nanoscale Polymer Spheres, Capsules, or Rods by Evaporation of Polymer Solutions in Cylindrical Alumina Nanopores,Macromolecules 2009, 42, 569-572. 40. C. Zhao, X. D. Feng, S. L. Mei and Z. X. Jin*, Carbon nanotube assisted high loading and controlled release of polyoxometalates in biodegradable multilayer thin film, Nanotechnology 2009, 20, 105101.

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