学术成果展示(不超30个) 1. Kang, H. J.; Wang, Z.; Wang, Y. Y.; Zhao, S. J.; Zhang, S. F.; Li, J. Z. Development of Mainly Plant Protein-derived Plywood Bioadhesives via Soy Protein Isolate Fiber Self-reinforced Soybean Meal Composites,Industrial Crops and Products,2019, 133,10–17. 2. Kang, H. J.;Wang, Z.; Zhang, W.; Li, J. Z.; Zhang, S.F. Physico-chemical properties improvement of soy protein isolate films through caffeic acid incorporation and tri-functional aziridine hybridization,Food Hydrocolloids,2016,61, 923?932. 3. Kang,H. J.;Song, X. S.; Wang, Z.; Zhang, W.; Zhang, S. F.; Li, J. Z. High-performance and fully renewable soy protein isolate-based film from microcrystalline cellulose via bio-inspired poly(dopamine) surface modification,ACS Sustainable Chem. Eng.2016,4, 4354?4360. 4. Kang, H. J.; Liu, X.R.; Zhang, S. F.; Li, J. Z. Functionalization of halloysite nanotubes (HNTs) via mussel-inspired surface modification and silane grafting for HNTs/soy protein isolate nanocomposite film preparation,RSC Adv.,2017, 7,24140. 5. Kang, H. J.;Wang, Z.; Zhao, S. J.; Wang, Q. C.; Zhang, S. F. Reinforced soy protein isolate–based bionanocomposites with halloysite nanotubes via mussel-inspired dopamine and polylysine codeposition,J. Appl. Polym. Sci.2018, 135, 47197. 6. Kang, H. J.;Shen, X. Y.; Zhang, W.; Qi, C. S.; Zhang, S. F.; Li, J. Z. Simultaneously strengthening and toughening soy protein isolate-based films using poly(ethylene glycol)-block-polystyrene (PEG-b-PS) nanoparticles,RSC Adv., 2016,6, 83256?83263. 7. Kang, H. J.; Song, Z. F.; Shen, X. Y.; Zhang, S. F.; Li, J. Z.; Zhang, W. Q. Reversible complexation/disassembly of thermo-responsive vesicles and nanospheres of diblock copolymers synthesized by dispersion RAFT polymerization,Polymer,2015,66,8?15. 8. Kang, H. J.;Su, Y.; He, X.; Zhang, S. F.; Li, J. Z.; Zhang, W. Q.In situsynthesis of ABA triblock copolymer nanoparticles by seeded RAFT polymerization: effect of the chain length of the third A block on the triblock copolymer morphology,J. polym. sci., part A: polym. chem.,2015,53, 1777?1784. 9. Wang, Z.;Kang, H. J.; Zhao, S. J.; Zhang, W.; Zhang, S. F.; Li, J. Z. Polyphenol-induced cellulose nanofibrils anchored graphene oxide as nanohybrids for strong yet tough soy protein nanocomposites,Carbohydrate Polymers,2018, 180, 354-364. 10. Wang, Z.;Kang, H. J.; Zhang, W.; Zhang, S. F.; Li, J. Z. Improvement of interfacial interactions using natural polyphenol-inspired tannic acid-coated nanoclay enhancement of soy protein isolate biofilms,Applied Surface Science, 2017, 401, 271-282. 11. Wang, Z.;Kang, H. J.; Qi, C. S.; Zhang, S. F.; Li, J. Z. Multiple Cross-linking bionanocomposites reinforced with mussel-inspired poly(dopamine) surface modified nanoclay: construction, properties and characterization,Polymer Composites, 2018, 39, 90-100 12. Wang, Z.;Kang, H. J.; Zhang, W.; Zhang, S. F.; Li, J. Z. Improvement of interfacial adhesion by bio-inspired catechol-functionalized soy protein with versatile reactivity: preparation of fully utilizable soy-based film,Polymers, 9, 95. 13. Liu, X. R.;Kang, H. J.; Wang, Z.; Zhang, W.; Li, J. Z.; Zhang, S. F. Simultaneously toughening and strengthening soy protein isolate-based compsites via carboxymethylated chitosan and halloysite nanotube hybridization,Materials, 10, 653. 14. Li, H. Y.;Kang, H. J.; Zhang, W.; Zhang, S. F.; Li, J. Z. Physicochemical properties of modified soybean-flour adhesives enhanced by carboxylated styrene-butadiene rubber latex,Int. J. Adhes. Adhes., 2016,66, 59?64. 15. Zhang, J. Z.;Kang, H. J.; Gao, Q.; Li, J. Z.; Pizzi, A.; Delmotte, L. Performances of Larch (larix gmelini) Tannin Modified Urea–Formaldehyde (TUF) Resin and Plywood Bonded by TUF Resin,J. Appl. Polym. Sci., 2014, 131, 41064. 16. Shen, X. Y.; Huo, F.;Kang, H. J.; Zhang, S. F.; Li, J. Z.; Zhang, W. Q. Modification of block copolymer vesicles: what will happen when AB diblock copolymer is block-extended to an ABC triblock terpolymer?Polym. Chem., 2015,6, 3407?3414. 17. Zhao, S. J.; Wang, Z.;Kang, H. J.; Li, J. Z.; Zhang, S. F. Fully bio-based soybean adhesive in situ cross-linked by interactive network skeleton from plant oil-anchored fiber,Industrial crops and products, 2018, 122, 366-374. 18. Wang, Z.; Zhao, S. J.;Kang, H. J.; Zhang, W.; Zhang, S. F.; Li, J. Z. Mussel-inspired engineering of synergistic nanointerfacial interactions as sacrificial bonds into carbon nanotube-reinforced soy protein/nanofibrillated cellulose nanocompsites: versatile mechanical enhancement,Applied surface science, 2018, 434, 1086-1100. 参编专著: Shifeng Zhang,Haijiao Kang. Soy protein-based blends, composites and nanocomposites.In Visakh P. M. and Olga Nazarenko (Ed.),Soy Protein Isolate-Based Films,Chapter 8, pp. 195-230. 2017, Wiley Press.
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