基本信息

姓    名：吴晓栋

性    别：男

籍    贯：江苏南通

职    称：副教授/硕士生导师

电子邮箱：wuxiaodong@njtech.edu.cn

办公地点：润德楼C305

学缘与工作经历

2023/10-至今，南京工业大学，副教授

2018/08-2023.10，南京工业大学，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，南京工业大学，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，南京工业大学，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》和《材料科学前沿》等本科生和研究生教学,因材施教，积极申报并获批南京工业大学研究生教育教学改革课题和南京工业大学高等教育教学改革研究课题。指导学生荣获“建行杯”第七届中国国际互联网+大学生创新创业大赛江苏省选拔赛暨第十届江苏省大学生创新创业大赛决赛产业命题赛道一等奖、第十八届“挑战杯”全国大学生课外学术科技作品竞赛江苏省赛二等奖，同时指导本科生获省优秀本科毕业论文团队，指导多位学生获校优秀本科毕业论文。

长期从事气凝胶耐高温隔热及光电催化材料的基础理论和应用开发研究，入选江苏省科协青年科技人才托举工程，目前担任国际期刊Frontiers in Materials副主编、Gels期刊客座编辑。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、2022年度江苏高校、科研院所科技创新成果奖，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提名奖”。 以第一/通讯作者身份在Nat. Commun.、Angew. Chem. Int. Edition、Chem. Engin. J、Energy、J Energy Chem.和无机化学学报等国内外学术期刊上发表学术论文50余篇，授权国家发明专利17件。

一作/通讯高水平代表性论文（近三年）

[1] C. Qin#, X. Wu#, L. Tang#, X. Chen, M. Li, Y. Mou, B. Su, S. Wang, C. Feng, J. Liu, X. Yuan, Y. Zhao, H. Wang, Dual donor-acceptor covalent organic frameworks for hydrogen peroxide photosynthesis, Nat. Commun. 14 (2023) 5238.

[2] Y. Mou#, X. Wu#, C. Qin, J. Chen, Y. Zhao, L. Jiang, C. Zhang, X. Yuan, E.H. Ang, H. Wang, Linkage Microenvironment of Azoles‐Related Covalent Organic Frameworks Precisely Regulates Photocatalytic Generation of Hydrogen Peroxide, Angew. Chem. Int. Edition. (2023) e202309480.

[3] C. Qin#, Y. Yang#, X. Wu#, J. Tang, Twistedly hydrophobic basis with suitable aromatic metrics in covalent organic networks govern micropollutant decontamination, Nat. Commun. https://doi.org/10.1038/s41467-023-42513-x

[4] W. Hao, S. Ren, X. Wu*, et al, Recent advance in the construction of 3D porous structure Ti₃C₂T_x MXene and their multi-functional applications, J. Alloy. Compd. 968 (2023) 172219

[5] S. Huang, J. Lu, X. Wu*, H. Zhu, X. Shen, S. Cui, X. Chen, Ru-promoted NiFe oxyhydroxide anchored on the hierarchical porous N-doped carbon aerogel: Electronic structures modulation for much enhanced OER/HER dual-functional characteristics, Appl. Catal. A. 664 (2023) 119331.

[6] C. Su, T. D. Koudama, X. Wu*, X. Shen, S. Cui, X. Chen J. Tang, Rational design of a novel mullite aerogel with extremely high mechanical strength and anti-oxidation behavior for advanced thermal protection in extreme environments, J Eur. Ceram. Soc. Accepted..

[7] D. Meng, L. Wei, J. Shi, Q. Jiang, X. Wu*, J. Tang, Loose spherical FeOOH/MnO nanoarrays from a simple in situ hydrothermal method for enhanced oxygen evolution electrocatalysis, Colloid. Surface A. 665 (2023) 131228.

[8] J. Tai, Y. Bi, C. Ni, X. Wu*, T.D. Koudama, S. Cui, X. Shen, X. Chen, Modulating interfacial charge density of FeCo oxyhydroxides via coupling with graphene oxide aerogel for boosting oxygen evolution reaction, J. Alloy. Compd. 934 (2023) 167911.

[9] X. Wu*, C. Ni, J. Man, X. Shen, S. Cui, X. Chen, A strategy to promote the ORR electrocatalytic activity by the novel engineering bunched three-dimensional Pd-Cu alloy aerogel, Chem. Eng. J. 454 (2023) 140293.

[10] X. Wu*, Y. Xia, X. Shen, S. Cui, X. Chen, T.D. Koudama, New insight into efficient photocatalytic CO₂ reduction without any sacrifice agent over the novel hierarchical structured SiOC whisker aerogel, J. Alloy. Compd. 961 (2023) 171005.

[11] M. Li#, X. Wu#, K. Liu, Y. Zhang, X. Jiang, D. Sun, Y. Tang, K. Huang, G. Fu, Nitrogen vacancies enriched Ce-doped Ni₃N hierarchical nanosheets triggering highly-efficient urea oxidation reaction in urea-assisted energy-saving electrolysis, J. Energy Chem. 69 (2022) 506-515.

[12] H. Wang#, X. Wu#, G. Liu, S. Wu, R. Xu, Bimetallic MOF derived nickel nanoclusters supported by nitrogen-doped carbon for efficient electrocatalytic CO₂ reduction, Nano Res. 16 (2022) 4546-4553.

[13] Y. Wang, X. Wu#, X. Jiang, X. Wu, Y. Tang, D. Sun, G. Fu, Citrulline-induced mesoporous CoS/CoO heterojunction nanorods triggering high-efficiency oxygen electrocatalysis in solid-state Zn-air batteries, Chem. Eng. J. 434 (2022) 134744.

[14] X. Wu*, J. Lu, S. Huang, X. Shen, S. Cui, X. 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, Appl. Surf. Sci. 594 (2022) 153486.

[15] Y. Xia, J. Man, X. Wu*, S. Huang, A. Lu, X. Shen, S. Cui, X. Chen, Oxygen-vacancy-assisted construction of Ce-TiO₂ aerogel for efficiently boosting photocatalytic CO2 reduction without any sacrifice agent, Ceram. Int. 49 (2023) 6100-6112.

[16] C. Fan#, X. Wu#, M. Li, X. Wang, Y. Zhu, G. Fu, T. Ma, Y. Tang, Surface chemical reconstruction of hierarchical hollow inverse-spinel manganese cobalt oxide boosting oxygen evolution reaction, Chem. Eng. J. 431 (2022) 133829.

[17] C. Gan, Y. Zhang, Z. Liu, W. Yan, Q. Jiang, X. Wu*, J. Tang, Integrated Co₄MnFe₃/Ti₃C₂: Componential and Structural Engineering toward Boosting Electrocatalytic Oxygen Evolution, J Phys. Chem. C 125 (2021) 15872-15881.

[18] S. Huang, J. Tai, W. Hao, J. Lu, S. Liu, X. Wu*, S. 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, Ceram. Int. 48 (2021) 3974-3984.

[19] Q. Jiang, C. Gan, X. Wu*, Z. Liu, J. 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, Adv. Powder Technol. 33 (2021) 103371.

[20] Z. Li#, X. Wu#, X. Jiang, B. Shen, Z. Teng, D. Sun, G. Fu, Y. Tang, Surface carbon layer controllable Ni₃Fe particles confined in hierarchical N-doped carbon framework boosting oxygen evolution reaction, Advan. Powder Mater. 1 (2021) 100020.

[21] X. Wu*, J. Man, S. Liu, S. Huang, J. Lu, J. Tai, Y. Zhong, X. Shen, S. Cui, X. Chen, Isocyanate-crosslinked silica aerogel monolith with low thermal conductivity and much enhanced mechanical properties: fabrication and analysis of forming mechanisms, Ceram. Int. 47 (2021) 26668-26677.

[22] J. Ding, X. Wu*, X. Shen, S. Cui, X. Chen, Form-stable phase change material embedded in three-dimensional reduced graphene aerogel with large latent heat for thermal energy management, Appl. Surf. Sci. 534 (2020) 147612.

[23] J. Ding, X. Wu*, X. Shen, S. Cui, X. 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, Energy 210 (2020) 118478.

[24] J. Ding, X. Wu*, X. Shen, S. Cui, Y. Zhong, C. An, Y. Cui, X. 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, Chem. Eng. J. 382 (2020) 122880.

[25] X. Wu*, Z. Kai, D. Jie, X. Shen, C. Sheng, Z. Ya, J. Ma, X. Chen, Facile synthesis of flexible and hydrophobic polymethylsilsesquioxane based silica aerogel via the co-precursor method and ambient pressure drying technique, J. Non-Cryst. Solids 530 (2020) 119826.

授权代表性发明专利

[1] 吴晓栋，沈晓冬，崔升，丁洁，安晨，蔡盈盈，马佳莹，安文然.一种耐高温轻质BN气凝胶材料的制备方法. ZL201910271661.0

[2] 吴晓栋，邰菊香，崔升，沈晓冬.一种三元FeCo₂M_yO_x(OH)_z负载氧化石墨烯气凝胶材料的制备方法.ZL202111466823.X.

[3] 吴晓栋，沈晓冬，崔升，丁洁，安文然，马佳莹，蔡盈盈，安晨，崔艺，姜杭杰. 一种耐高温轻质氮化硅气凝胶材料的制备方法. ZL201910271666.3.

[4] 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

[5] 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

[6] 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.

[7] 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.

[8] 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.

[9] 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 .