吴丹,直聘研究员,硕导,香江学者,郑州大学优秀青年人才创新团队负责人
招生及联系方式
所属一级学科:化学工程与技术
电子邮箱:wudan4321@163.com
招生方向:化学工程与技术(化学工艺、工业催化、材料与化工)
对研究生要求:遵守纪律,踏实肯干,爱好科研,喜欢探索。
为研究生提供:充足的经费和完善的科研平台,每周定期讨论交流,推荐出国(境)攻读博士学位,支持外出参加学术会议,组织丰富多彩的组内活动。
研究方向:
多相催化与生物质转化:面向未来绿色能源、化工与材料的发展趋势,聚焦生物质、氢能、低碳分子等绿色资源的转化和利用研究。设计并制备高性能多相催化剂,以解决生物质等绿色资源在催化炼制过程中面临的诸如反应活性低、目标产物选择性差、催化剂不稳定等瓶颈问题,从分子层面揭示构效关系和反应机理,以指导催化剂理性设计,结合产业实际,形成关键理论与技术。
教育及工作经历:
2010.09-2014.06 河南师范大学化学化工学院,化学,学士学位
2014.09-2017.07 中国科学院上海高等研究院,物理化学,硕士学位
2017.10-2018.01 索尔维(上海)研发中心,绿色产品与工艺国际联合实验室
2018.01-2021.03 法国国家科研中心,有机、无机与工业化学,博士学位
2021.09-2024.03 郑州大学化工学院,助理研究员(直聘研究员)
2024.03-至今 郑州大学化工学院,副研究员(直聘研究员)
主要科研项目:
1.国家自然科学基金面上项目,卤化金属双功能位点调控与木质素油原位催化加氢脱氧制芳烃的协同反应机制研究,2025.01-2028.12,50万,主持,在研
2.国家自然科学基金青年项目,分子印迹对双功能催化剂结构和亲密性的调控机制及其在糠醛制戊二醇中的应用研究,2023.01-2025.12,30万,主持,在研
3.中国博士后第5批特别资助(站前),2023.08-2025.08,主持,在研
4.中国博士后第75批面上资助,2023.08-2025.08,主持,在研
5.郑州大学优秀青年人才创新团队支持计划,主持,在研
6.香港研究资助局Collaborative Research Found (CRF) 项目,A Biorefining Approach to Converting Organic Solid Wastes into Multiple High Value-Added Bioproducts,内地合作方,在研
7.河南省博士后匹配经费,主持,结题
8.河南省科技攻关项目,主持,结题
9.郑州大学人才启动基金,主持,结题
主要荣誉获奖:
1.2024年度“香江学者”计划,合作导师:徐春保院士
2.2021年度国家优秀自费留学生奖学金
3.2017年度上海市优秀毕业生
五篇代表性学术论文:
1. D. Wu, W. Baaziz, B. Gu, M. Marinova, W. Y. Hernández, W. Zhou, E. I. Vovk, O. Ersen, A.Y. Khodakov, V.V. Ordomsky, Surface molecular imprinting over the supported metal catalysts for size-dependent selective hydrogenation reactions,Nature Catalysis,2021, 4, 595–606.(第一作者)
2.D. Wu, Q. Wang, O. V. Safonova, D. V. Peron, W. Zhou, Z. Yan, M. Marinova, A. Y. Khodakov, V. V. Ordomsky, Lignin Compounds to Monoaromatics: Selective Cleavage of C-O Bonds over a Brominated Ruthenium Catalyst,Angewandte Chemie International Edition,2021, 60, 12513-12523.(第一作者)
3. D. Wu, S. Zhang, W.Y. Hernández, W. Baaziz, O. Ersen, M. Mrinova, A.Y. Khodakov, V.V. Ordomsky, Dual Metal-Acid Pd-Br Catalyst for Selective Hydrodeoxygenation of 5-Hydroxymethylfurfural (HMF) to 2, 5-Dimethylfuran at Ambient Temperature,ACS Catalysis,2021, 11, 19-30.(第一作者)
4. Zhang, Y.; Xue, H.; Cheng, M.; Yang, X.; Zhang, Z.; Zhao, X.; Rezayan, A.; Han, D.; Wu, D.; Xu, C. Oxygen Vacancy-Induced Interfacial Lanthanum Hydride and Hydroxide Bifunctional Sites for Selective Hydrogenolysis of Furanic Compounds to Alkyl Diols.ACS Catalysis,2024, 14 (13), 10009-10021.(通讯作者)
5. Zhou, K.; Zhang, Y. S.; Zhang, M. Y.; Rezayan, A.; Quan, Z.; Han, D. D.; Wang, J. S.; Wu, D.; Xu, C. B. Highly efficient conversion of biomass-derived furanic compounds into alkyl diols by selective hydrogenolysis using non-noble metal catalysts with tunable surface oxygen vacancies.Chemical Engineering Journal,2024, 492, 152347.(通讯作者)
其他主要学术论文:
1.Yang, X.; Geng, F.; Shi, Z.; Wu, D.; Rezayan, A.; Zhao, J.; Nie, R.; Wang, J.; Xu, C.; Zhang, Y. Intimate Ni-I metal-acid bifunctional catalysts for selective reductive etherification of carbonyl compounds.Chemical Engineering Journal, 2025, 507, 160327.(通讯作者)
2.Liu, P.; Yang, Z.; Zhang, M.; Liu, Y.; Han, D.; Wu, D.; Xu, C.; Wang, J. Enhanced carboxylation of furoic salt with CO2by ZnCl2coordination for efficient production of 2,5-furandicarboxylic acid.Dalton Transactions,2024, 53 (21), 9130-9138.(通讯作者)
3. Yang, X.; Geng, F.; Yang, Z.; Rezayan, A.; Xu, C. C.; Wu, D.; Zhang, Y. Efficient Metal-Acid Bifunctional Catalysts Derived from NiAl-LDO for the Reductive Catalytic Fractionation of Lignocellulose into Phenolic Monomers.ACS Sustainable Chemistry & Engineering,2024, 12 (37), 13816-13825.(通讯作者)
4. Qiyan Wang, Dandan Han, Zhen Zhang, Armin Rezayan, Sheng Chen, Qidong Zhang, Lin Dong, Junlu Sun, Ronghan Wei, Dan Wu, Sub-Nanoconfined Aggregation-Induced Emission Molecules via Stacked Layers of Microtubular Covalent Organic Frameworks for Enhanced Fluorescence,Advanced Optical Materials,2023, 2302128.(通讯作者)
5. X. Yang, Z. Zhang, P. Shao, A. Rezayan, D. Wu, C. C. Xu, J. Wang, Y. Zhang, Synergy of electronic and steric effects of Br-Ni catalysts for selective hydrogenolysis of diphenyl ether to phenol,Chemical Engineering Journal,2023, 475, 146144.(通讯作者)
6. D. Wu, D. Han, W. Zhou, S. Streiff, A.Y. Khodakov, V.V. Ordomsky, Surface modification of metallic catalysts for the design of selective processes,Catalysis Reviews,2022, 66(2), 640-686.(第一作者)
7. D. Wu, D. Han, Y. Zhou, Z. Zhang, H. Qian, Q. Zhou, Y. Zhang, A.Y. Khodakov, V.V. Ordomsky, Synthesis of stack plate covalent organic framework nanotubes using a self-assembled acid as a soft template,Chemical Communications,2022, 58, 9148-9151.(第一作者)
8.D. Han, Q. Zhou, Y. Xia, D. Huang, J. Qin, L. Wang, X. Wang, X. Zheng, D. Wu, A general confinement co-assembly strategy enabling cross-dimensional supraspheres for boosting electrochemical performance,Carbon,2022, 200, 296-306.(第一作者)
9. D. Wu, W.Y. Hernández, S. Zhang, E.I. Vovk, X. Zhou, Y. Yang, A.Y. Khodakov, V.V. Ordomsky, In Situ Generation of Brønsted Acidity in the Pd‑I Bifunctional Catalysts for Selective Reductive Etherification of Carbonyl Compounds under Mild Conditions,ACS Catalysis,2019, 9, 2940-2948.(第一作者)
10. D. Wu, X. Yu, X. Chen, G. Yu, K. Zhang, M. Qiu, W. Xue, C. Yang, Z. Liu, Y. Sun, Morphology-Controlled Synthesis of H-type MFI Zeolites with Unique Stacked Structures through a One-Pot Solvent-Free Strategy,ChemSusChem,2019, 12, 3871-3877.(第一作者)
代表性专利:
1.国际专利 PCT/CN2018/092796,Metal-iodide catalytic system for direct etherification from aldehydes and/or ketones.
2.国际专利 PCT/CN2020/136075,Method for selective cleavage of compound comprising aromatic ring and C-O-C linkage.
3.中国专利CN2023114287699,一种富含氧缺陷的镍-镧系金属催化剂及其制备方法和在呋喃醛及其衍生物加氢中的应用。
4.中国专利CN2023107550020,一种铜钴镁多金属催化剂及其制备方法与应用。
5.中国专利CN2023100397000,一种卤素改性镍铝水滑石及其制备方法和在木质素催化加氢中的应用。
6.中国专利ZL202210690875.3,一种共价有机框架纳米管材料及其制备方法。
7.中国专利 ZL202210670183.2,一种纳米晶/碳纳米管复合超级微球的制备方法。
8.中国专利ZL202111317892.4,一种高度有序氮掺杂介孔碳的制备方法。
9.中国专利 ZL201610199867.3,在固相体系中制备高性能ZSM-5分子筛的方法。
10.中国专利 ZL201610199850.8,固体酸后处理合成多级孔SAPO-34分子筛的方法。
