基本信息
姓 名:吴晓栋
性 别:男
出生年月:1991年1月
籍 贯:江苏南通
职 称:讲师
电子邮箱:wuxiaodong@njtech.edu.cn
办公地点:润德楼C305
学缘与工作经历
2018/08-至今,8455新葡萄APP,讲师
2019/10-2020/11,新加坡南洋理工大学,访问学者
2018/11-2021/10,倍立达新材料系统工程股份有限公司,博士后
2013/09-2018/06,8455新葡萄APP,研究生/博士
2016/10-2017/10,美国怀俄明大学, 博士生联合培养
2009/09-2013/06,8455新葡萄APP,学士
教学与科研简介
承担《无机材料物理性能》、《材料科学工程基础》、《热管理材料与技术》等本科生及研究生课程教学,在课程教学和授课的过程中,不断探索教学规律,因材施教,并积极参与教改课题的申报,其中8455新葡萄APP研究生公司产品改革课题和8455新葡萄APP高等公司产品改革研究课题均获得立项。指导员工荣获“建行杯”第七届中国国际互联网+老员工创新创业大赛江苏省选拔赛暨第十届江苏省老员工创新创业大赛决赛产业命题赛道一等奖,同时指导员工获得江苏省优秀本科毕业论文。
长期从事耐高温气凝胶隔热材料和气凝胶基光电催化材料的基础理论和应用开发研究。近年来,主持国家自然科学基金青年基金、江苏省自然科学基金青年基金、先进功能复合材料国家重点实验室项目、江苏省高等学校自然科学研究面上项目、国家留学基金委CSC访问学者项目资助、中国博士后面上资助、江苏省科技副总、江苏省博士后科研资助A类资助、南京市2019年度留学人员科技创新项目择优资助等在内的多个国家及省部级项目。科研成果获2020年度江苏省科学技术发明奖二等奖,同时获“2019年度江苏省优秀博士论文”和“2019年度中国硅酸盐学会优秀博士论文奖”。以第一/通讯作者身份在Chemical Engineering Journal、Energy、Journal of Energy Chemistry、Nano Research、 Advanced Powder Materials、Applied Surface Science、无机化学学报等国内外学术期刊上发表学术论文40余篇,同时申请国家发明专利20余件,授权12件。
高水平代表性论文(近五年)
[1] Chuan Fan#, Xiaodong Wu# (Co-first author), Meng Li, Xu Wang, Yu Zhu, Gengtao Fu, Tianyi Ma, Yawen Tang, Surface chemical reconstruction of hierarchical hollow inverse-spinel manganese cobalt oxide boosting oxygen evolution reaction [J]. Chemical Engineering Journal, 2022, 431, 133829.
[2] Xiaodong Wu*, Jianwei Man, Sijia Liu, Shuntian Huang, Jiaxin Lu, Ya Zhong, Xiaodong Shen, Sheng Cui, Xiangbao Chen, Isocyanate-crosslinked silica aerogel monolith with low thermal conductivity and much enhanced mechanical properties: fabrication and analysis of forming mechanisms [J].Ceramics International. 2021, 47, 26668-26677.
[3] Yue Wang#, Xiaodong Wu#( Co-first author), Xian Jiang, Xiangrui Wu, Yawen Tang, Dongmei Sun, Gengtao Fu. Citrulline-induced mesoporous CoS/CoO heterojunction nanorods triggering high-efficiency oxygen electrocatalysis in solid-state Zn-air batteries [J]. Chemical Engineering Journal, 2022, 434, 134744.
[4]Qianqian Jiang, Chengqiang Gan, Xiaodong Wu*, Zhuangzhuang Liu, Jiangguo Tang*. Facile synthesis of black phosphorus directly grown on carbon paper as an efficient OER Electrocatalyst: Role of Interfacial charge transfer and induced local charge distribution [J]. Advanced Powder Technology, 2021,33, 103371.
[5] Zhijuan Lia#, Xiaodong Wu#(Co-first author), Xian Jiang, Binbin Shen, Zhishun Teng, Dongmei Sun, Gengtao Fu*, Yawen Tanga*.Surface carbon layer controllable Ni3Fe particles confined in hierarchical N-doped carbon framework boosting oxygen evolution reaction [J]. Advanced Powder Materials, 2022, 1, 100020.
[6] Xiaodong Wu, Jiaxin Lu, Shuntian Huang, Xiaodong Shen, Sheng Cui, Xiangbao Chen. Facile fabrication of novel magnetic 3-D ZnFe2O4/ZnO aerogel based heterojunction for photoreduction of Cr(Ⅵ) under visible light: Controlled synthesis, facial change distribution, and DFT study [J]. Applied Surface Science, 2022, 594, 153486.
[7] Shuntian Huang, Juxiang Tai, Wenke Hao, Jiaxin Lu, Sijia Liu, Xiaodong Wu*, Sheng Cui. A novel magnetic ZnFe2O4 aerogel photocatalyst for visible light reduction of Cr(VI) at high concentrations: Facile synthesis, enhanced activity and photocatalytic mechanism, combined with first-principles calculations [J]. Ceramics International, 2021, 48(3): 3974-3984.
[8] Meng Li#, Xiaodong Wu#( Co-first author), Kun Liu, Yifan Zhang, Xuechun Jiang, Dongmei Sun, Yawen Tang, Kai Huang, Gengtao Fu. Nitrogen vacancies enriched Ce-doped Ni3N hierarchical nanosheets triggering highly-efficient urea oxidation reaction in urea-assisted energy-saving electrolysis [J]. Journal of Energy Chemistry, 2022, 69, 506-515.
[9] Chengqiang Gan, Yichi Zhang, Zhuangzhuang Liu, Wenya Yan, Qianqian Jiang*, Xiaodong Wu*, Jiangguo Tang*, Integrated Co4MnFe3/Ti3C2: Componential and Structural Engineering toward Boosting Electrocatalytic Oxygen Evolution [J]. The Journal of Physical Chemistry C.2021, 125, 15872-15881.
[10] Jie Ding, Kai Zhong, Sijia Liu, Xiaodong Wu*, Xiaodong Shen, Sheng Cui, and Xiangbao Chen, Flexible and super hydrophobic polymethylsilsesquioxane based silica aerogel for organic solvent adsorption via ambient pressure drying technique[J]. Powder Technology. 2020, 373, 716-726.
[11] Jie Ding, Xiaodong Wu*, Xiaodong Shen, Sheng Cui, and Xiangbao Chen, Form-stable phase change material embedded in three-dimensional reduced graphene aerogel with large latent heat for thermal energy management[J]. Applied Surface Science 534 (2020) 147612.
[12] Jie Ding, Xiaodong Wu*, Xiaodong Shen, Sheng Cui, and Xiangbao Chen, A promising form-stable phase change material composed of C/SiO2 aerogel and palmitic acid with large latent heat as short-term thermal insulation[J]. Energy, 2020, 210, 118478.
[13] Xiaodong Wu , Kai Zhong , Jie Ding* , Xiaodong Shen*, Sheng Cui, Ya Zhong,Jiaying Ma, Xiangbao Chen. Facile synthesis of flexible and hydrophobic polymethylsilsesquioxane based silica aerogel via the co-precursor method and ambient pressure drying technique [J]. Journal of Non-crystalline solids. 2020, 530, 119826.
[14] Jie Ding , Xiaodong Wu*, Xiaodong Shen, Sheng Cui , Ya Zhong , Chen An, Yi Cui , Xiangbao Chen. Synthesis and textural evolution of mesoporous Si3N4 aerogel with high specific surface area and excellent thermal insulation property via the urea assisted sol-gel technique [J]. Chemical Engineering Journal, 2020, 382, 122880.
[15] Xiaodong Wu, Gaofeng Shao, Xiaodong Shen, et al. Novel Na2SO4@SiO2 phasechange material with core-shell structures for high temperature thermal storage. Solar Energy Materials and Solar Cells, 2018, 78, 280-288.
[16] Xiaodong Wu, Fan Maohong, Shen Xiaodong, et al. Silica aerogels formed from solublesilicates and methyl trimethoxysilane (MTMS) using CO2 gas as a gelation agent [J]. Ceramics International, 2018, 44(1): 821-829.
[17] Xiaodong Wu, Jie Ding, Yong Kong,et al. Synthesis of a novel three-dimensional Na2SO4@SiO2@Al2O3-SiO2 phase change material doped aerogel composite with high thermal resistance and latent heat. [J]. Ceramics International, 2018, 44, 21855-21865.
[18] Xiaodong,Wu Maohong Fan, J F Mclaughlin,et al. A novel low-cost method of silica aerogel fabrication using fly ash and trona ore with ambient pressure drying technique [J]. Powder Technology, 2018, 323: 310-322.
[19] Xiaodong Wu, Gaofeng Shao, Xiaodong Shen,et al. Evolution of the novel C/SiO2/SiC ternary aerogel with high specific surface area and improved oxidation resistance [J]. Chemical Engineering Journal, 2017, 330: 1022-1034.
[20] Xiaodong Wu, Mengxiao Xie, Jinxiang Liu, et al. In-situ synthesis and textural evolution of the novel carbonaceous SiC/mullite aerogel via polymer-derived ceramics route[J]. Ceramics International, 2017, 43(13): 9896-9905.
[21] Xiaodong Wu, Wei Li, Gaofeng Shao,et al. Investigation on textural and structural evolution of the novel crack-free equimolar Al2O3-SiO2-TiO2 ternary aerogel during thermal treatment[J]. Ceramics International, 2017, 43(5): 4188-4196.
[22] Xiaodong Wu, Gaofeng Shao, Sijia Liu, et al. A new rapid and economical one-step method for preparing SiO2 aerogels using supercritical extraction [J]. Powder Technology, 2017, 312: 1-10.
[23] Xiaodong Wu, Gaofeng Shao, Xiaodong Shen, et al. The low temperature fabrication of nanocrystalline MgAl2O4 spinel aerogel by a non-alkoxide sol-gel route [J]. Materials Letters, 2017, 207: 137-140.
授权代表性发明专利
[1] 吴晓栋,邰菊香,崔升,沈晓冬. 一种氮掺杂石墨烯负载反尖晶石型磁性气凝胶材料的制备方法. ZL202110756344 .5
[2] 吴晓栋,黄舜天,崔升,满建伟,邰菊香,郝温可,安晨. 一种单原子气凝胶电催化剂的制备方法. ZL202110356921 .1
[3] 熊吉如, 吴晓栋, 张慧宁. 一种钢网箱体保温条板. ZL201921764329.X.
[4] 丁洁, 吴晓栋, 崔升, 沈晓冬, 蔡盈盈. 一种石墨烯气凝胶相变储能材料的制备方法. ZL201911105096.7.
[5] 沈晓冬, 吴晓栋, 邵高峰, 崔升, 周洁, 魏阳. 块状高比表莫来石-碳化硅复合气凝胶材料的制备方法. ZL201610885971.8.
[6] 沈晓冬, 吴晓栋, 邵高峰, 崔升, 宋启超, 郦炜. 一种块状高表面酸活性铝硅钛三元复合气凝胶材料的制备方法. ZL201610885878.7.
[7] 沈晓冬, 吴晓栋, 邵高峰, 崔升, 李砚涵, 刘思佳. 透波隔热一体化纤维增强 Al2O3‑SiO2气凝胶材料的制备方法.ZL201510279154.3.
[8] 沈晓冬, 吴晓栋, 邵高峰, 崔升, 刘思佳, 魏阳. 耐高温低合成块状尖晶石气凝胶材料的制备方法. ZL201610885879.1 .
[9] 沈晓冬, 邵高峰, 陆宇操, 崔升, 吴晓栋. 一种轻质柔性可重复使用防隔热材料及其制备方法. ZL201710233191.X.
[10] 沈晓冬, 邵高峰, 蔡舒祺, 崔升, 吴晓栋, 张弛. 多孔隔热材料表面耐高温高发射率硅化物‑玻璃杂化涂层及制备. ZL201611176993.3.
[11] 沈晓冬, 吴晓栋, 邵高峰, 崔升. 一种耐高温高强度SiC包覆碳泡沫复合隔热材料及其制备方法. ZL201410743407.3
[12] 沈晓冬,邵高峰,崔升,吴晓栋. MoSi2-BSG涂覆氧化锆纤维板一体化隔热材料及其制备方法.ZL 201410797128.5
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