个人简历
教育背景\r2004.9-2009.6:武汉大学化学与分子科学学院,硕博连读\r\r工作经历\r2009.7-2009.11:新加坡南洋理工大学,博士后\r2010.3-2013.6:美国康奈尔大学,博士后\r2013.10-2019.8:东华大学纺织学院,副教授\r2019.9-至今:东华大学纺织学院,教授
研究领域
"""""多功能水凝胶基慢性溃疡敷料\r氨基酸基纤维支架用于皮肤病治疗\r纳米生物基阻燃及抗菌等多功能纤维和制品"
近期论文
Na Lia, Hua Hana, Mengna Lia, Weiwang Qiua, Qian Wanga, Xiaohong Qin*, Yong He, Xueli Wang, Liu Liub, Jianyong Yu, Faxue Li*, and Dequn Wu*. Eco-friendly and Intrinsic Nanogels of forIntrinsic Durable Flame Retardant and Antibacterial Properties. Chemical Engineering Journal. DOI: 10.1016/j.cej.2021. 129008.(IF 10.38)\r\rFan S, Zhu CC, Wu DQ*, Wang XL, Yu JY, Li FX*. Silicon-containing inherent flame-retardant polyamide 6 with anti-dripping via introducing ethylene glycol as the chain-linker and charring agent. Polymer Degradation and Stability. DOI: 10.1016/j.polymdegradstab. 2020.109080.(IF 3.78)\r\rFan S, Peng B, Yuan RC,Wu DQ*, Wang XL, Yu JY, Li FX*. A novel Schiff base-containing branched polysiloxane as a self-crosslinking flame retardant for PA6 with low heat release and excellent anti-dripping performance. Composites Part B-Engineering. DOI: 10.1016/j.compositesb.2019.107684. (IF 6.864)\r\rLi N, Ming J, Yuan RC, Fan S, Liu L, Wang XL, Yu JY, Li FX*, Wu DQ*. Novel Eco-Friendly Flame Retardants Based on Nitrogen-Silicone Schiff Base and Application in Cellulose. ACS Sustainable Chemistry & Engineering, 2020, 8: 290-301. (IF 6.97)\r\rHan H, Zhu J, Zhang FF, Wang XL, Yu JY, Li FX, Qin XH*, Wu DQ*. Hydrophilic and degradable polyesters based on L-aspartic acid with antibacterial properties for potential application in hernia repair. Biomaterials Science, 2019, 7: 5404-5413. (IF 6.251)\r\rLiu YL, Liu M, Jia J, Wu DQ*, Gao TT, Wang XL, Yu JY, Li FX*. beta-Cyclodextrin based hollow nanoparticles with excellent adsorption performance towards organic and inorganic pollutants. Nanoscale, 2019,11:18653-18661. (IF 6.97)\r\rHan H, Zhu J, Wu DQ*, Li FX*, Wang XL, Yu JY, Qin XH*. Inherent Guanidine Nanogels with Durable Antibacterial and Bacterially Antiadhesive Properties. Advanced Functional Materials. 2019, (29) 1806594. (IF 15.621)\r\rZhu J, Han H, Li FX*, Wang XL, Yu JY, Qin XH*, Wu DQ*. Peptide-Functionalized Amino Acid-Derived Pseudoprotein-Based Hydrogel with Hemorrhage Control and Antibacterial Activity for Wound Healing. Chemistry of Materials. 2019, 31: 4436-4450. (IF 10.159)\r\rZhu J, Han H, Li FX*, Wang XL, Yu JY, Wu DQ*. Self-assembly of amino acid-based random copolymers for antibacterial application and infection treatment as nanocarriers. Journal of Colloid and Interface Science. 2019, 540: 634-646. (IF 6.361)\r\rFan S, Yuan RC, Wu DQ*, Wang XL, Yu JY, Li FX*. Silicon/nitrogen synergistically reinforced flame-retardant PA6 nanocomposites with simultaneously improved anti-dripping and mechanical properties, RSC Advances. 2019, 9:7620-7628. (IF 3.049)\r\rLiu YL, Wu DQ*, Wang XL, Yu JY, Li FX*. Fabrication of eco-friendly nanofibrous membranes functionalized with carboxymethyl-beta-cyclodextrin for efficient removal of methylene blue with good recyclability, RSC Advances. 2018, 8: 37715-37723. (IF 3.049)\r\rZhu J, Han H, Ye TT, Wang XL, Yu JY, Li FX*, Wu DQ*. Biodegradable and pH Sensitive Peptide Based Hydrogel as Controlled Release System for Antibacterial Wound Dressing Application, Molecules. 2018, 23: 3383-3394. (IF 3.06)\r\rZhu J, Han H, Li FX*, Wang XL, Yu JY, Wu DQ*. Hyaluronic Acid and Polyethylene Glycol Hybrid Hydrogel Encapsulating Nanogel with Hemostasis and Sustainable Antibacterial Property for Wound Healing. ACS Applied Materials & Interfaces, 2018, 10: 13304-13316. (IF 8.456)\r\rWu DQ*, Zhu J, Zhan JZ, Han H, Qin XH*. Synthesis and characterization of arginine-NIPAAm hybrid hydrogel as wound dressing: In vitro and in vivo study, Acta Biomaterialia, 2018, 65: 305-316. (IF 6.638)\r\rWu DQ*, Cui HC, Zhu J, Yu JY. Novel amino acid based nanogel conjugated suture for antibacterial application. Journal of Materials Chemistry B, 2016, 4: 2606–2613. (IF 5.047)\r\rWu DQ*, Wu LL, Zhu J, Zhang HL, Yu JY. A rapid ammonia sensor based on lysine nanogel-sensitized PANI/PAN nanofibers, Journal of Materials Chemistry B, 2016, 4: 1520–1527. (IF 5.047)\r\rWu DQ, Wu J, Chu CC, Qin XH*. From macro to micro to nano: the development of a novel lysine based hydrogel platform and enzyme triggered self-assembly of macro hydrogel into nanogel, Journal of Materials Chemistry, 2015, 3: 2286-2294. (IF 5.047)
