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党总支书记、常务副院长: 张鹏飞

阅读次数:     日期:2022-01-10

张鹏飞 常务副院长负责学院的党建、宣传、人事等党委工作;协助院长负责学科建设、学位点建设和研究生招生、培养、日常管理及导师队伍建设工作;研究生实习实践、创新创业、学科竞赛工作。院长出差期间,主持学院行政工作。联系化工系。

个人简介:

教育背景与工作经历

2004-2005;华东理工大学制药工程系,本科一年级学习

2005-2008:复旦大学药学院,学士

2008-2013:浙江大学化学系,博士

2011-2012:德国Max-Planck Institute of Colloids and Interfaces,交流学习

2013-2017;美国Oak Ridge National Laboratory,博士后

2017年-至今:上海交通大学化学化工学院,特别研究员

2020年-至今,上海交通大学化学化工学院,院长助理

培训、出访及挂职经历

2021年-至今,上海交大-鄂尔多斯联合研发中心,副主任(交大方牵头人)

2022年-至今,宁夏大学化学化工学院,教授,常务副院长(教育部委派对口建设)

2023年5月-至今,宁夏大学化学化工学院,党委书记兼常务副院长(教育部委派对口建设)

研究方向

1. 高熵金属基催化剂的设计机制及应用,

2. 乙炔氢氯化过程、苯酚脱水制备二苯醚、蒽醌染料新工艺。

围绕催化剂固相制备过程和理论,从“催化剂构效关系-过程强化机制-球磨制备装置创制和应用”三个层面展开了系统研究;开发了百升级球磨反应设备,构筑了一系列高效金属氧化物催化剂。在包括AIChE Journal (3篇)、Angewandte Chemie International Edition (2篇)、Nature Communications (4篇)、Journal of the American Chemical Society (1篇)、Advanced Materials (2篇) 、Chem (1篇) 等期刊发表SCI论文110多篇,引用5000多次。同时,长期与化工企业联合开发反应工艺、固体催化剂。

科研项目

主持项目:

2017年上海市浦江人才计划(化工学科);

2018年国家高层次人才计划青年项目(化工学科);

2019年上海市科技启明星计划A类(化工学科);

2019年中船重工委托项目(低温催化燃烧催化剂开放);

2017/2021年国家自然科学基金面上项目(2项);

2020/2022年科技部重点研发计划课题1项(二氧化碳加氢制甲醇催化剂放大和过程模拟)、子课题1项(固相法制备烷烃转化催化剂);

2020年浙江新安化工集团委托项目(甲烷法甲基二氯化膦制备催化剂的开发);

2020年江苏省双创计划;

2021年内蒙古自治区重大科技专项(电力冶金行业二氧化碳利用集成技术开发);

2021年鄂尔多斯市科技合作项目(钌基乙炔氢氯化催化剂的开发);

2021年鄂尔多斯集团委托项目(乙炔氢氯化催化剂开发)

2021年贵州浩然生物科技有限公司委托项目(次氯酸型消毒剂稳定剂的开发);

2022年宁夏贝利特化学股份有限公司(氰胺制备新工艺开放);

2022年岳阳兴长石化(高效吸附剂的选型和开发);

2022年鄂尔多斯集团委托项目(煤层气低浓度甲烷催化燃烧催化剂开发)

2023年中石化宁夏长城能化有限公司(乙炔甲醛制BDO催化剂开发);

2023年宁夏中能集团(苯酚脱水制二苯醚催化工艺开发)

2023年鄂尔多斯集团委托项目(沥青与二氧化碳重整制CO催化剂及工艺开发)

代表性论文专著

加入交大工作后

2018年

1. P. F. Zhang and S. Dai,* Mechanochemical Synthesis of Porous Organic Materials. J. Mater. Chem. A, 2017, 5, 16118.

2. W. Zhan, S. Yang, P. F. Zhang;* Y. Guo, G. Lu, M. Chisholm, S. Dai.* Incorporating Rich Mesoporosity into Ceria-based Catalyst via Mechanochemistry. Chem. Mater., 2017, 29, 7323-7329.

3. P. F. Zhang,* S. Dai,* et al. Sustainable Synthesis of Alkaline Metal Oxide-Mesoporous Carbons via Mechanochemical Coordination Self-Assembly. J. Mater. Chem. A, 2017, 5, 23446.

4. P. F. Zhang*, L. Jiang,* et al., Pyridine-Functionalized and Metallized Meso-macroporous Polymers for Highly Selective Capture and Catalytic Conversion of CO2 into Cyclic Carbonates. Industrial & Engineering Chemistry Research, 2017, 56, 15008–15016.

5.  P. F. Zhang*,  S. Dai*, et al., Facile Synthesis of Highly Porous Metal Oxides by Mechanochemical Nanocasting. Chem. Mater., 2018, 30, 2924-2929.

6. P. F. Zhang, N. Chen, D. Chen, S. Yang, X. Liu, L. Wang, P. Wu, S. Dai*, Ultra-Stable and High Loading Cobalt@Ordered Mesoporous Carbon Catalysts: All-in-One Deoxygenation of Ketone into Alkylbenzene. ChemCatChem, 2018, DOI: 10.1002/cctc.201800358.

7. P. F. Zhang, N. Chen, D. Chen, K. Huang, D. Tao,* S. Dai*, Porous Sulfonamide Polymers by Capturing Atmospheric Sulfur Dioxide. ChemSusChem, 2018, DOI: 10.1002/cssc.201800572.

8. P. F. Zhang*, S. Dai,* et al., Confined Ultrathin Pd-Ce Nanowires with Outstanding Moisture- and SO2- Tolerance in Methane Combustion". Angew. Chem. Int. Ed., 2018, DOI: 10.1002/anie.201803393 and 10.1002/ange.201803393.

2019年

9. D. Chen, P. F. Zhang* Q. Fang, S. Wan, H. Li, S. Yang, C. Huang and S. Dai*. Coordination-supported organic polymers: mesoporous inorganic–organic materials with preferred Stability. Inorganic Chemitry Frontier, 2018, DOI: 10.1039/c8qi00471d.

10. P. F. Zhang*. What is Driving the Acceleration of Materials Science in China. Chem. Mater., 2018, DOI: 10.1021/acs.chemmater.8b02375.

11.S. T. Hou, N. Chen, P. F. Zhang*, S. Dai*, Heterogenous Viologen Catalysts for Metal-free and Selective Oxidations, Green Chemistry, 2019, DOI: 10.1039/C8GC03772H

12. D. Chen, J. Zhao, P. F. Zhang,* S. Dai.* Mechanochemical synthesis of metal–organic frameworks. Polyhedron 162 (2019) 59–64

13. J. Zhao, Y. Shu, P. F. Zhang.* Solid-State CTAB-Assisted Synthesis of Mesoporous Fe3O4 and Au@Fe3O4 by Mechanochemistry. Chinese J. Catalysis, 2019, DOI: S1872-2067(19)63288-2.

14. Y. Leng, Y. Jiang, H. Peng, Z. Zhang, M. Liu, K. Jie, P. F. Zhang*, S. Dai*. Heterogeneity of Polyoxometalates by Confining within Ordered Mesopores: Toward Efficient Oxidation of Benzene to Phenol. Catalysis Science &Technology, 2019, DOI: 10.1039/C9CY00288J.

15. L. Kong, J. Zhao, S. Han, T. Zhang, L. He, P. F. Zhang*, S. Dai.*. Facile Synthesis of Copper Containing Ordered Mesoporous Polymers via Aqueous Coordination Self-Assembly for Aerobic Oxidation of Alcohols. Industrial & Engineering Chemistry Research, 2019, DOI: 10.1021/acs.iecr.9b00669

16. L. Wang, J. Zhao, P. F. Zhang,* S. Yang, W.C. Zhan,* Mechanochemical Synthesis of Ruthenium Cluster@Ordered Mesoporous Carbon Catalysts by Synergetic Dual Templates. Chemistry-A European Journal, 2019, DOI: 10.1002/chem.201901714.

17. H. Peng, P. F. Zhang,* S. Dai*, et al. Guarding Active Self-assembled Pt-ceria Nanowire by Silica Shell-Robust Nanoreactors for Catalytic Oxidation. Applied Catalysis B, 2019, 256, 117807.

18. Z. Zhang, S. Yang, P. F. Zhang,* S. Dai,* et al. Endowing Metal Oxides with Well-defined mesopores via Mechanochemical Nonhydrolytic Sol-gel Strategy: the introduction of Mesoporous High-entropy Oxides. Chem. Mater., 2019, 31, 5529

19. H. Chen, P. F. Zhang,* S. Dai*, et al. ACS Material Letters, 2019, 1, 83.

20. Min Zhou,* Jiahua Zhao, P. F. Zhang* Nanqing Chen and Shize Yang*, Solvent-Free and Rapid Synthesis of Mesoporous Pt-Iron Oxide Catalysts  via Mechanochemical Assembly, Catalysis  Sci. Technol. 2019, 9, 3907.

21. An aluminium hydroxide-directing mechanochemical  nanocasting strategy toward the synthesis ofmesoporous metal oxides. Jixing Liu, P. F. Zhang*,  Sheng Dai*, et al. J. Mater. Chem. A.,2019, 7, 22977

22. Y. Leng, J. Liu, Z. Zhang, H. Chen, P.  F. Zhang,* S. Dai.* Polyoxometalate as an Oxidative Cluster Template:  Engineering Metal Oxides with Mesopores and Reactive Surface. J. Mater. Chem. A 2019, 7, 27297

2020年

23. J. H. Zhao, W. Shan, P. F. Zhang,* S. Dai.  Solvent-free and Mechanochemical Synthesis of Nitrogen-doped Mesoporous  Carbon from Tannin and Related Gas Sorption Property. Chem. Eng. J., 2020, 381, 122579

24. 熔盐法制备有序介孔碳-碳化物复合材料,孟敏珊,张鹏飞*,化工学报2020,71,409-416.

25. Jiafeng Bao, H. Chen, S. Yang, P. F. Zhang*. Mechanochemical Redox-based Synthesis of highly porous CoxMn1-xOy  catalyst for total oxidation. Chinese J. Catal. A 2020, 1846-1854.

26. Siyang Nie, Shize  Yang, P. F. Zhang.* Solvent-free synthesis of mesoporous platinum-aluminum oxide via mechanochemistry: Toward selective hydrogenation of nitrobenzene to aniline, Chemical Engineering Science, 2020, 220,  115619

27.Y. Shu, N. Chen, X. Duan, S. Yang, P. F. Zhang*, Z. H. Bao, Z. Wu, S. Dai. A Principle for Highly Active Metal Oxide Catalysts via NaCl-based Solid Solution. Chem.  2020, DOI: 10.1016/j.chempr.2020.04.003.

28. S. Hou, X. Suo, N. Chen, P. F. Zhang,* S. Dai. Linear  Porous Organic Polymer with Unexpected Crystalline. Polymer Chem. 2020, DOI: 10.1039/D0PY00816H.

29. S. Hou, X. Jiang, P. F. Zhang,* Facile Synthesis of Nitrogen-Rich Isoindoline-Based Porous Polymer. Green Energy Enviroment. 2020, doi.org/10.1016/j.gee.2020.06.021.

30. Jixing Liu, Lu Wang, Francis Okejiri, Jing Luo, Jiahua Zhao,  Pengfei Zhang,* et al. Deep Understanding of Strong Metal Interface Confinement: A Journey of Pd/FeOx Catalysts. ACS Catal, 2020, 2020, 10, 8950−8959.

31. Jiafeng Bao, Shize Yang, Pengfei Zhang.* Mechanochemical Redox: A Calcination-free Process to Support CoMnOx Catalysts. Catalysis Science & Technology. 2020, DOI: 10.1039/D0CY01121E.

32. Yuan Shu, Jiafeng Bao, Shize Yang, Xiaolan Duan, Pengfei Zhang*. Entropy-Stabilized Metal-CeOx Solid Solutions for Catalysis Combustion of Volatile Organic Compounds. AIChE, 2020, DOI: 10.1002/aic.17046.

2021年

33. J. Zhao, Shize Yang, P. F. Zhang* and S. Dai. Element Sulfur- mediated: Directly Converting Pitch into Porous Carbon, 2021, Fuel, 286, 119393.

34.Yan Leng,Zihao Zhang,Hao Chen, Shengyu Du, Jixing Liu,Shiyang Nie, Yuming Dong,Pengfei Zhang* and Sheng Dai* , Chem. Commun.,Chem. Commun., 2021, 57, 3676.

35.Siyang Nie, Shize Yang, Pengfei Zhang*, ChemCatChem, 2021, 13, 2434–2443.

36.Siyang Nie, Liang Wu, Lingci Zhao, Xiao Zheng, Shize Yang, and Pengfei Zhang*, Entropy-driven chemistry reveals highly stable denary MgAl2O4-type catalysts, Chem Catalysis, 2021, DOI: 10.1016/j.checat.2021.04.001.

37. Yuan Shu, Xiaolan Duan, Qiang Niu, Rongyong Xie, Pengfei Zhang*, Yunxiang Pan, Zifeng Ma, Chemical Engineering Journal, 426. (2021), 131757.

38. Shengtai Hou, Minshan Meng, Dandan Liu, and Pengfei Zhang*, ChemSusChem,  2021, 14, 3059–3063.

39. Minshan Meng, Qiang Niu, Pengfei Zhang,* Greenhouse Gas Sci Technol., 2021, DOI: 10.1002/ghg.2108.

40. Dong Chen, Liang Wu, Siyang Nie, Pengfei Zhang*, Journal of Environmental Chemical Engineering, 9 (2021) 105649.

41.Siyang Nie, Liang Wu, Lingci Zhao, and Pengfei Zhang*, Nano Research, 2021, https://doi.org/10.1007/s12274-021-3803-3.

42. Shengtai Hou, Xuefeng Ma, Yuan Shu, Jiafeng Bao, Qiuyue Zhang, Mingshu Chen, Pengfei Zhang*, Sheng Dai. Self-regeneration of supported transition metals by a high entropy-driven principle. Nature Communication, 2021, 12, 5917.

43. Jiahua Zhao, Jiafeng Bao, Shize Yang, Qiang Niu, Rongyong Xie, Qiuyue Zhang, Mingshu Chen,Pengfei Zhang,* and Sheng Dai. Exsolution−dissolution of supported metals on high-entropy Co3MnNiCuZnOx: toward sintering-resistant catalysis. ACS Catalysis, 2021, 11, 12247−12257.

2022年

44. Dong Chen, Siyang Nie, Liang Wu, Xiao Zheng, Shengyu Du, Xiaolan Duan, Qiang Niu, P. F. Zhang*, Sheng Dai, Metal-Tannin Coordination Assembly Route to Nanostructured High-entropy Oxide Perovskites with Abundant Defects. Chem. Mater. 2022, DOI:10.1021/acs.chemmater.1c03930

45. Yuan Shu, Yuan Shu,   Xiaolan Duan, Dandan Liu, Shize Yang, P.  F. Zhang*, Low-Temperature Total Oxidation of Methane by Pore- and   Vacancy-engineered NiO Catalysts. AIChE J, 2022, DOI: 10.1002/aic.17664.

46. Jialu Xu, Qiang Niu,* Pengfei   Zhang*. Processing Poly(ethylene terephthalate) Waste into Functional   Carbon Materials by Mechanochemical Extrusion, ChemSusChem, 2022, 15, e202201576.

47. Yunhao Sun, Qiang Niu,*   Shize Yang, P. F. Zhang.* Observation   of Cobalt Species Evolution in Mesoporous Carbon by In-Situ STEM-HAADF   Imaging and Related Hydrogenation Process. ChemistrySelect, 2022, Just Accepted.2022, 7, e202104371

48. Yuan Shu, Xiaolan Duan, Dandan Liu, Qiang Niu and Pengfei Zhang.* Unexpected redox mechanism in WGS reaction with Ni-ZnO Catalyst through a solid-state co-precipitate method. Chemical Engineering Science, 2022,  261,117959.

2023年

49. Jialu Xu, Shengtai Hou, Qiang Niu, Pengfei Zhang*, Zheng-Hong Luo, Twin-screw Extrusion Synthesis of Mesoporous Carbon-Supported Metal Catalysts for Selective Hydrogenation, AIChE J. 2023, DOI: 10.1002/aic.18073.

50. Xiaolan Duan, Xiaopeng Wang, Lingcui Zhang, Qi Zhang, Qiang Niu,* and Pengfei Zhang*, Calcination-Free Synthesis of Porous Metal Oxides/Carbon from Calcium Carbide by Ball Milling. IECR, 2023, 62, 10320-10329.

51.Jiahua Zhao, Yuan Shu, Qiang Niu,* and Pengfei Zhang*.  Processing Plastic Wastes into Value-Added Carbon Adsorbents by Sulfur-Based Solvothermal Synthesis. ACS Sustainable Chem. Eng. 2023, 11, 11207-11218.

52.Jiahua Zhao, Qiang Niu,  Junjun Zhang*  and Pengfei Zhang *. Core–shell construction of metal@carbon by mechanochemically recycling plastic wastes: towards an efficient oxygen evolution reaction.  Green Chemistry, 2023, 25, 8047–8056.

53. Zequn Zhang, Yuan Shu,* Qian Liu, Shuxian Bi, Pengfei Zhang,* Anti-sintering Ni-ZnO catalyst stabilized by a dual protection of SMSI and carbon for efficient RWGS reaction. Chemical Engineering Journal 475 (2023) 146333.

54. Shengtai Hou, Jialu Xu, Junjie Wang, Hongjie Wang,* and Pengfei Zhang*, Mechanochemical Oxidative Coupling of Amine to Azo-based Polymers by Hypervalent Iodine Oxidant.Chem. Eur. J. 2023, e202303126.

55. Bingzhen Zhang, Yahui Zhu, Shunli Shi,* Ying Li, Yanping Luo, Zhixin Huang, Weiming Xiao, Shuhua Wang, Pengfei Zhang, Yuan Shu,* and Chao Chen*. Embedding Hierarchical Pores by Mechanochemistry in Carbonates with Superior Chemoselective Catalysis and Stability.  Inorganic Chemistry. 2023 62 (32), 12920-12930.

56.Bingzhen Zhang, Dan Deng, Jian Chen, Ying Li, Mingwei Yuan, Weiming Xiao, Shuhua Wang, Xiaolei Wang, Pengfei Zhang, Yuan Shu,* Shunli Shi,* and Chao Chen*. Defect Engineering of High-Entropy Oxides for Superior Catalytic Oxidation Performance. ACS Appl. Mater. Interfaces 2023, 15, 52705-52715.

57.Mengyuan Zhang, Xiaolan Duan, Ying Gao, Shuangshuang Zhang, Xiaoyan Lu, Kongliang Luo, Jian Ye,Xiaopeng Wang,Qiang Niu, Pengfei Zhang,* Sheng Dai. Tuning Oxygen Vacancies in Oxides by Configurational Entropy. ACS Appl. Mater. Interfaces 2023, 15, 45774-45789.

58.Xiaolan Duan, Xiaopeng Wang, Lan Xu, Tingting Ma, Yuan Shu, Shengtai Hou, Qiang Niu and Pengfei Zhang.* Incorporating three-dimensional ordered macropores into high-entropy oxides for catalytic soot combustion. J. Mater. Chem. A, 2023, 11, 19696.

2024年

59.Yuan Shu,* Qian Liu, Meiyu Shi, Zequn Zhang, Chengmin Xie, Shuxian Bi, and Pengfei Zhang*. Surfactant-Free Synthesis of Crystalline Mesoporous Metal Oxides by a Seeds/ NaCl-Mediated Growth Strategy. Adv. Sci. 2024, 11, 2304533。

60. Mengyao Wang, Jialu Xu, Shuangshuang Zhang, Xicai Tian, Qiang Niu, Pengfei Zhang*。A Cyclic Extrusion Strategy for Solvent-free Synthesis of Mesoporous Aluminum-based Metal Oxide Catalysts. Chemical Engineering Science 286 (2024) 119632.

61. Jun-Jun Zhang*, Wei-Wei Bao, Xiao-Hua Feng, Chun-Ming Yang, Nai-Liang Wang, Ya-Jun Qiu, Jian-Tao Li, Peng-Fei Zhang*, Zheng-Hong Luo, Layered double hydroxides as a robust catalyst for water oxidation through strong substrate-catalytic layer interaction, International Journal of Hydrogen Energy, 2023, 48(90), 35038-35049.

62. Yaning Fan, Junjun Zhang*, Kongliang Luo, Xuanyu Zhou, Jiahua Zhao, Weiwei Bao, Hui Su, Nailiang Wang*, Pengfei Zhang, Zhenghong Luo, Oxygen defect engineering on low-crystalline iron(III) oxyhydroxide as highly efficient electrocatalyst for water oxidation, Inorg. Chem. Front., 2024, 11, 114-122.

63. Mameng Yang, Weiwei Bao*, Junjun Zhang*, Taotao Ai, Jie Han, Yan Li, Jiangying Liu, Pengfei Zhang, Liangliang Feng*, Molybdenum/selenium based heterostructure catalyst for efficient hydrogen evolution: effects of ionic dissolution and repolymerization on catalytic performance,Journal of Colloid and Interface Science, 2024, 658,32-42

64. Yan Li, Jie Han, Weiwei Bao*, Junjun Zhang*, Taotao Ai, Mameng Yang, Chunming Yang, Pengfei Zhang, Self-derivation and reconstruction of silver nanoparticle reinforced layered double hydroxide through interface engineering for overall water splitting, Journal of Energy Chemistry, 2024, 90,590-599.

65. S.T. Hou, J. L. Xu, J. J. Wang, H. L. Wang, P.F. Zhang*. Mechanochemical Oxidative Coupling of Amine to Azo-based Polymers by Hypervalent Iodine Oxidant. Chem. Eur. J. 2024, 30, e202303126.

66. Jiahua Zhao, Xicai Tian, Qiang Niu, Pengfei Zhang*. F-doped carbon derived from asphalt by mechanochemical approach: More effective toward selective CO2 capture. Separation and Purification Technology 332 (2024) 125760

67. Shuangshuang Zhang, Qiang Niu*, Pengfei Zhang*. An entropy engineering strategy to design sulfur-resistant catalysts for dry reforming of methane. Chemical Engineering Journal 482 (2024) 149026。

68. Journal: Industrial & Engineering Chemistry Research Title: "Mechanochemical Synthesis of Entropy-Stabilized Wurtzite Zn(1-x)(CoMnNiCuMg)xO for RWGS Reaction" Authors: Gao, Ying; Sun, Yunhao; Niu, Qiang; Zhang, Pengfei. Ind. Eng. Chem. Res. 2024, 63, 3997-4003

69. Mengyuan Zhang, Xiaoyan Lu, Kongliang Luo, Jian Ye, Jia li Dong, Nana Lu,Xiaopeng Wang, Qiang Niu, Pengfei Zhang *, Sheng Dai. High Entropy Oxide Catalysts with SO2 Resistance in RWGS Reaction. Applied Catalysis B: Environment and Energy 349 (2024) 123845.

70. Doping Pd2+ into NinCeOx nanofibers promotes low-temperature CO2 methanation. Mengyuan Zhang, Jian Ye, Nana Lu, Xiaoyan Lu, Kongliang Luo,Jiali Dong,Qiang Niu, Pengfei Zhang*, Sheng Dai. Journal of Catalysis 434 (2024) 115535.

71. Enhancing sulfur resistance of oxides in carbon monoxide oxidation by a high entropy stabilized strategy. Shengyu Du, Pengfei Zhang*.    AIChE J. 2024, DOI: 10.1002/aic.18470.

早期工作

1. P. F. Zhang, Y. T. Gong, H. R. Li, Z. R. Chen, Y. Wang*. Solvent-free Aerobic Oxidation of Hydrocarbons and Alcohols with Pd@N-doped Carbon from Glucose. Nature Communications, 2013, 4, 1593.

2. P. F. Zhang, H. Lu,* Y. Zhou, L. Zhang, Z. L. Wu, S. Z. Yang, H. L. Shi, Q. L. Zhu, Y. F. Chen, S. Dai*. Mesoporous MnCeOx Solid Solutions for Low Temperature and Selective Oxidation of C-H Bonds by O2. Nature Communications, 2015, 6, 8446.

3. P. F. Zhang, L. Wang,* S. Yang, J. A. Schott, X. Liu, S. M. Mahurin, C. Huang, Y. Zhang, P. F. Fulvio, M. F. Chisholm, S. Dai*. Solid-State Synthesis of Ordered Mesoporous Carbon Catalysts via a Mechanochemical Assembly Through Coordination Cross-linking. Nature Communications, 2017, 8, 15020.

4. P. F. Zhang, J. Y. Yuan*, T.-P. Fellinger, M. Antonietti, H. R. Li, Y. Wang*. Improving Hydrothermal Carbonization by Poly(ionic liquid)s.  Angew. Chem. Int. Ed, 2013, 52, 6028 (封面论文).

5. Z. Qiao, P. F. Zhang,* S. Chai, M. Chi, G. M. Veith, M. Kidder, S. Dai*.Lab-in-a-Shell: Encapsulating Metal Clusters for Size Sieving Catalysis. J. Am. Chem. Soc., 2014, 136, 11260.

6. P. F. Zhang, H. Y. Li, G. M. Veith, S. Dai*.  Soluble Porous Coordination Polymers by Mechanochemistry: From Metal-Containing  Films/Membranes to Active Catalysts for Aerobic Oxidation. Advanced Materials, 2015, 27, 234.

7. P. F. Zhang, Z. Qiao, X. Jiang, G. M. Veith, S. Dai*. Nanoporous Ionic Organic Networks: Stabilizing and Supporting Gold Nanoparticles for Catalysis. Nano Letters, 2015, 15, 823.

8. P. F. Zhang, M. Li*, B. L. Yang, Y. X. Fang, X. G. Jiang, G. M. Veith, X. Sun, S. Dai*. Polymerized Ionic Networks with High Charge Density: Quasi-Solid Electrolytes in Lithium Metal Batteries.  Advanced Materials, 2015, 27, 8088-8094.

9. P. F. Zhang, H. Li, Y. Wang*. Functionalization of Graphitic Carbon Nitride by Grafting Organic Molecule: Toward C–H bond  Oxidation using Atmospheric Oxygen. Chem. Commun., 2014, 50, 6312 (封面文章),

10. P. F. Zhang, Y. T. Gong, Y. Q. Lv, Y. Guo, Y. Wang, C. M. Wang, H. R. Li*, Ionic liquids with metal chelate anions. Chem. Commun., 2012, 48, 2334.

11. P. F. Zhang, Z. Qiao, S. Dai*. Recent Advances in Carbon Nanospheres: Synthetic Routes and Applications.  Chem. Commun., 2015, 51, 9246-9256. (特邀综述)

12. P. F. Zhang, Y. Wang, J. Yao, C. M. Wang, C. Yan, M. Antonietti, H. R. Li*. Visible-Light-Induced Metal-Free Allylic Oxidation Utilizing a Coupled Photocatalytic System of g-C3N4 and N-Hydroxy Compounds.  Adv. Synth. Catal., 2011, 353, 1447.

13. P. F. Zhang, Y. Wang*, H. R. Li*, M. Antonietti. Metal-free oxidation of sulfides by carbon nitride with visible light illumination at room temperature. Green Chem., 2012, 14, 1904.

14. P. F. Zhang, Y. Gong, Z. Wei, J. Wang, H. R. Li, Y. Wang*. Updating Biomass to Porous Carbon Materials in Ionothermal Manner. ACS Appl. Mater. Inter., 2014, 6, 12515.

15. P. F. Zhang*, Z. Qiao, Z. Zhang, S. Wan, S. Dai*. Mesoporous Graphene-like Carbon Nanosheets: High-Power Supercapacitor and Outstanding Catalysis Support. J. Mater. Chem. A, 2014, 2, 12262.

16. P. F. Zhang,* X. Jiang, S. Wan and S. Dai*. Advancing Polymers of Intrinsic Microporosity by Mechanochemistry. J. Mater. Chem. A, 2015, 3, 6739. (封面论文)

17. P. F. Zhang, C. M. Wang, Z. R. Chen, H. R. Li*, Acetylacetone–metal catalyst modified by pyridinium salt group applied to the NHPI-catalyzed oxidation of cholesteryl acetate.  Catal. Sci. Technol., 2011, 1, 1133.

18. P. F. Zhang, Y. T. Gong, H. R. Li, Z. R. Chen, Y. Wang*. Selective Oxidation of Benzene to Phenol by FeCl3/mpg-C3N4 Hybrids. RSC Advance, 2013, 3, 5121.

19. P. F. Zhang, J. Y. Yuan, H. R. Li, X. F. Liu, X. Xu, M. Antonietti, Y. Wang*. Mesoporous Nitrogen-Doped Carbon for Copper-Mediated Ullmann-type C-O/-N/-S Cross-Coupling. Reactions. RSC Advance, 2013, 3, 1890.

20. P. F. Zhang, J. Deng, J. Mao, H. R. Li, Y. Wang*. Selective aerobic oxidation of alcohols by a mesoporous graphitic carbon nitride/N-hydroxyphthalimide system under visible-light illumination at room temperature. Chinese J. Catal., 2015, 36, 1580.

21. P. F. Zhang, H. Zhu, S. Dai. Porous Carbon Supports: Recent Advances with Various Morphologies and Compositions. ChemCatChem, 2015, 7, 2788. (特邀综述)

22. P. F. Zhang,* X. Jiang, S. Wan, Sheng Dai,* Charged Porous Polymers by Solid C-O Cross-Coupling Reaction. Chemistry-A European Journal, 2015, 21, 12688 (卷首文章).

23. P. F. Zhang*, Z. Zhang, J. Chen, S. Dai*. Ultrahigh Surface Area Carbon from Carbonated Beverages: Combining Self-Templating Process and in-situ Activation. Carbon, 2015, 93, 39-47.

24. P. F. Zhang*, H. Lu, S. Yang, W. Zhan, W. Zhu, X. Jiang, C. Huang, S. Dai*. Realizing Selective and Aerobic Oxidation by Porous Transition-Metal-Salt@Ceria Catalyst. ChemistrySelect 2016, 6, 1179–1183.

25. P. F. Zhang, J. Zhang, S. Dai*. Mesoporous Carbon Materials with Functional Compositions. Chemistry-A European Journal, 2017, DOI: 10.1002/chem.201602199.

人才培养

课题组2017级硕士生赵佳华、2018级硕士生鲍佳锋、2019级博士生束远获得国家奖学金。

2019级硕士生孟敏珊、2020级硕士生马雪峰、2018级博士生侯胜泰获得2021年企业冠名奖学金。

2021级硕士生王梦瑶获企业冠名奖学金。

学术兼职

2022年-至今,煤炭高效利用与绿色化工国家重点实验室副主任(教育部委派对口建设)

2023年-至今,宁夏回族自治区能源化工产业基地,特聘专家

2022年-至今,宁夏回族自治区石嘴山市,特聘专家

2023年-至今,宁夏回族自治区高层次人才计划

2024年-至今,宁夏回族自治区煤炭间接液化产品高值化利用重点实验室,学术委员会委员

荣誉奖励

2023年,入选教育部长江学者特聘教授(化工学科);

2023年,中国化工学会科技进步奖二等奖(1/5);

2023年,中国颗粒学会技术发明奖二等奖(3/7);

2023年,中国石油和化学工业联合会科技进步奖二等奖(4/8);

2024年,江西省自然科学二等奖(3/4);

2024年,与鄂尔多斯集团联合开发的硅锰矿热炉尾气制10万吨甲醇技术、百万吨电石渣-含二氧化碳尾气矿化制备碳酸钙技术已通过中国化工学会鉴定。

教学工作

开设本科生【应用催化】课程

开设本科生【大学化学】课程

开设研究生【多相催化】课程

教学成果

1.将煤化工实例融入化工教学,作为主编/副主编编写 3 部化工教材化工设计(清华大学出版社)、化工工程制图(清华大学出版社)、化工检测仪表及自动控制(化学工业出版社)

2.获得 “全国石油和化工教育优秀教学团队”称号

3.牵头获批教育部“化学工程与工艺专业”虚拟教研室

4.以“应用催化课程多维度教学改革探索”为题在 《化工高等教育》发表

5.指导学生 (26人) 获化工实验大赛和教学大赛二等奖及以上 10 项。部分成果如下:

2022 获得上海交通大学“优秀班主任”荣誉称号

2022 获得上海交通大学学生社会实践“优秀指导教师”荣誉称号

2022 担任第五届全国大学生化工实验大赛指导教师

2022 指导学生获得第五届全国大学生化工实验大赛西北赛区决赛特等奖

2022 担任“天正设计杯”第十六、十七届全国大学生化工设计竞赛指导教师

2023 获得首届陕西省大学生金相大会“优秀指导教师奖”荣誉称号

2023 获得第十二届全国大学生金相技能大赛复赛(陕西赛区)“优秀指导教师奖”荣誉称号

2022 担任全国“田家炳杯”全日制教育硕士专业研究生教学技能大赛指导教师

2023 指导学生获得宁夏全区第七届大学生教学技能大赛一等奖

人才需求

1.欢迎具有化工、化学或材料背景,对研究工作感兴趣的同学报考本实验室硕士和博士研究生,同时欢迎本科生到本研究室进行毕业设计。

2.课题组与鄂尔多斯集团联合培养博士后,在交大科技园有1200平米研发中心,欢迎催化、化工背景博士进站,开展产业化研究。

3.课题组在宁夏大学同时开展研发,设备齐全,实验室1000平米。