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康海娇
北京林业大学

康海娇,女,北京林业大学讲师。

目录

人物简历

2019.07-至今 北京林业大学 材料学院家具系 讲师

2016.09-2019.07 北京林业大学 木材科学与技术

博士(导师:张世锋教授、李建章教授)

2017.12-2018.12 South Carolina Univ. (U.S.) 化学与生物化学

博士联合培养(导师:Dr.Chuanbing Tang)

2013.09-2016.07 北京林业大学 木材科学与技术 硕士(导师:张世锋教授、李建章教授

2014.05-2015.05 南开大学 高分子化学与物理 交流访学

2009.09-2013.07 北京林业大学 木材科学与工程(家具设计与制造方向) 本科

研究方向

绿色功能性木质复合涂层

科研工作

主要从事木制家具功能性涂层开发、生物质无醛涂饰材料基础研究以及家具工艺相关领域的教学科研与技术转化工作。主持“中央高校基本科研业务费专项”、“北京林业大学科技创新项目”等。主持国家自然科学基金青年科学基金项目(3210140183),参与国家自然科学基金项目(木粉微结构调控及快速吸附水体重金属离子机理研究)、林业公益性行业科研专项(201504502 无醛生物质胶黏剂制造及应用技术研究与示范)、“十三五”国家重点研发计划项目(绿色环保木质材料生产技术集成与示范)等。发表SCI期刊收录论文18篇(其中,以第一作者发表8篇,含一区TOP期刊,总被引90余次);合作申请专利4项;参与编写专著1部。

获奖情况

2017.12 北京林业大学校长奖学金

2017.08 第七届全国生物质材料科学与技术研讨会优秀研究生论文报告奖(中国林学会)

2016.12 国家奖学金(博士)

2016.12 北京林业大学研究生第五届学术论坛三等奖

2016.08 全国林业工程博士生论坛优秀报告奖(国务院学位委员会林业工程学科评议组)

2015.12 国家奖学金(硕士)

学术成果

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 situ synthesis 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.[1]

参考资料