个人简历

教育背景\r
2011-2015 美国内布拉斯加大学林肯分校，教育与人类科学学院，人类科学专业，博士\r
(College of Education and Human Sciences, University of Nebraska-Lincoln)\r
2009-2011 东华大学，纺织学院，纺织材料与产品设计专业，硕士；\r
2005-2009 东华大学，纺织学院，纺织科学与工程专业，学士；\r
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工作经历\r
2020-至今 东华大学，纺织学院，非织造材料与工程系，副教授、硕导\r
2016-2020 东华大学，纺织学院，非织造材料与工程系，讲师、硕导\r
2015-2016 美国内布拉斯加大学林肯分校，教育与人类科学学院，人类科学专业，博士后\r
2011-2015美国内布拉斯加大学林肯分校，教育与人类科学学院，助理研究员

研究领域

"""""非织造材料与工程\r
绿色纺织浆料\r
生物质微纳米新材料"

近期论文

Zhao, Y., Zhao, Y.Z., Xu, H.L., and Yang, Y.Q*. A Sustainable Slashing Industry Using Biodegradable Sizes from Modified Soy Proteins to Replace Petro-Based Poly(vinyl alcohol). Environmental Science & Technology 49 (4), 2391–2397 2015.\r
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Zhao, Y., Xu H.L., Mu, B.N., Xu, L., Hogan, R., Yang, Y.Q.*, Functions of soymeal compositions in textile sizing. Industrial crops and products89, 455-464 2016.\r
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Zhao,Y., Xu, H.L., Mu, B.N.,Xu, L.,Yang, Y.Q.*, Biodegradable soy protein films with controllable water solubility and enhanced mechanical properties via graft polymerization. Polymer degradation and stability 133，75-84, 2016.\r
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Zhao, Y., Jiang, Q.R., Xu, H.L., Reddy, N., Xu, L., and Yang, Y.Q.*, Cytocompatible and Water‐Stable CamelinaProtein Films for Tissue Engineering. Journal of Biomedical Materials Research Part B: Applied Biomaterials 102 (4) 729-736 2014.\r
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Zhao,Y., Xu, H.L., Yang, Y.Q.*, Development of biodegradable textile sizes from soymeal: a renewable and cost-effective resource. Journal of polymers and the environment 25（2），349-358, 2016.\r
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Zhao, Y., Pan, G.W., Xu, H.L., and Yang, Y.Q*. Compression Molded Composites from Polypropylene Waste Carpets. Polymer composites. 39 (3), 595-605 2018.\r
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Zhao, Y., Zhang, C.Y., Qiu, Y.P.*, Effect of Atmospheric Plasma Treatment on Carbon Fiber/Epoxy Interfacial Adhesion. Journal of Adhesion Science Technology 25(20) 2897–2908 2011.\r
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Zhao, Y., Wang, B.J., Yang, Y.Q.*, Improving Oxidation Resistance of Sulfur Dyed Fabrics. Dyeing and Finishing 22 45-47 2013.\r
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Xu, X.Y., Song, K.L., Xin, B., Hu, W.F., Ke, Q.F., Zhao, Y.*, Thermal-tenacity-enhanced and biodegradable textile sizes from cellulose nanocrystals reinforced soy protein for effective yarn coating. Industrial crops and products, https://doi.org/10.1016/j.indcrop.2019.111701\r
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Xu, X.Y., Hu, W.F., Ke, Q.F., Liu, H.G., Li, J., Zhao, Y.* Bio-adhesives from unfolded soy protein reinforced by nano-chitosan for sustainable textile industry. Textile research journal, https://doi.org/10.1177/0040517519886560\r
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Zhu, X.M., Dai, Z.J., Xu, K.L., Zhao, Y.*, Ke, Q.F.*, Fabrication of Multifunctional Filters via Online Incorporating Nano-TiO2 into Spun-Bonded/Melt-Blown Nonwovens for Air Filtration and Toluene Degradation. Macromolecular Materials and Engineering, 304(12) 1900350, 2019.https://doi.org/10.1002/mame.201900350\r
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Di, Y.P., Xing, B., Hu, W.F., Ke, Q.F., Zhao, Y. *, Robust Candy-Floss-Like Poly(L-lactide) Fibrous Filters Driven by Sodium-Dodecyl-Benzene-Sulfonate for High Efficient Dye/Oil Separation. Macromolecular Materials and Engineering, 305(10), 2000368, 2020.\r
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Ma, J.J., Xu, W.W., Kou, X.R., Niu, Y.W., Xia, Y.C., Wang, Y.X., Tian, G.L., Zhao, Y. *, Ke, Q.F. *, Green Fabrication of Control-Released, Washable, and Nonadhesives Aromatic-Nanocapsules/Cotton Fabrics via Electrostatic-Adsorption/In Situ Immobilization. ACS Sustainable Chemistry and Engineering, 8(40), 15258-15267, 2020.