吴立志
日期:2021-11-16 阅读次数: 作者: 来源:beat365
姓    名:  吴立志
性    别:

  男    

职    称: 副研究员
学    历: 博士研究生
职    务:
电    话:
专    业: 物理化学
电子邮件: wulz@fzu.edu.cn
研究方向: 多孔分子筛催化材料的制备和应用研究


教育工作经历

2023-至今,beat365,副研究员

2018-2022,beat365,助理研究员,协助建立和负责分子催化与原位工况表征研究所

2012-2017,华东师范大学,博士

2008-2012,四川大学,本科


教学简介

目前主要承担本科生的《物理化学》和《物理化学实验》等课程的教学工作。


科研简介

研究方向

1)多孔分子筛催化材料的制备和应用研究;

2)低碳烷烃的高效转化与利用;

3) 生物质和塑料高效转化;

4)催化反应过程机理研究。


招收物理化学、材料化学以及应用化学专业的硕士。欢迎本科生参与科研训练项目(SRTP)和毕业设计。


社会兼职


科研项目


(5)国家自然青年科学基金(22202047),2023-2025

(4)福建省自然科学青年创新项目(2022J05110),2022-2025

(3)福建省中青年教育厅基金项目((JAT200042),2021-2023

(2)beat365正版唯一官网贵重仪器设备开放测试基金(2021T006),2021-2021

(1)beat365正版唯一官网科研启动经费,2021-2024


代表性成果

文章

         (26) H. Yang, Z. Zhang, Y. He, P. Wang, Z. Ren, L. Wu*, Y. Tang*, L. Tan*. The Study of Ni Catalysts with Different Al₂O₃ Supports in Partial Oxidation of Methane Reaction. Ind. Eng. Chem. Res. 2023, 62, 31, 12120-12132

         (25) H. Yang, Z. An, Y. Xu, L. Wu*, L. Tan*, Y. Tang*.Oscillatory Behavior of Ni/TiO2 Catalyst during Partial Oxidation of Methane: Understanding the Role of Strong Metal-Support Interaction.Molecular Catalysis, 2023, 547, 113374.

(24) Y. He, H. Deng, Y. Zhang, X. Wang, W. Zheng, Z. Ren, L. Tan, Y. Tang,  L, Wu*, Boosting propane dehydrogenation over Sn stabilizing dispersed Ptδ+ confined in Silicalite-1 at low temperature. Fuel, 2023, 352, 129044.

(23) L. Wu, J. Wei, Y. Zhang, Y. He, X. Wang, H. Guo, Y. Tang, L. Tan*, The selective hydrodeoxygenation of guaiacol to cyclohexanol over cobalt-modified TS-1 catalysts, Microporous and Mesoporous Materials. 2023, 348,112347.

(22) L. Tan*, Y. Li, Q, Lv, Y. Gan, Y. Fang, Y. Tang, L, Wu*, Y. Fang*. Development of soluble UiO-66 to improve photocatalytic CO2 reduction. Catalysis Today, 2023, 410, 282-288.

(21)  P. Wang, M. Yang, H. Liao, K. Xu, X. Zong, Z. Xie, H. Zhao, Y. Xu, H. Yang, Y. Gan, Y. Fang,  L. WuY. Tang*, Restructured zeolites anchoring singly dispersed bimetallic platinum and zinc catalysts for propane dehydrogenation. Cell Reports Physical Science, 2023, 4, 101311.

(20) P. Wang, H. Liao, H. Yang, Q. Lv, Y. Li, L. Wu, Y. Tang, Z. Xie, L. Tan*. Constructing PtCe cluster catalysts by regulating metal-support interaction via Al in zeolite for propane dehydrogenation. Chemical Engineering Science, 2023, 269, 118450.

(19) Y. Gan, Q. Lv, Y. Li, H. Yang, K. Xu, L. Wu, Y. Tang, L. Tan*, Acidity regulation for improved activity of Mo/HZSM-5 catalyst in methane dehydroaromatization. Chemical Engineering Science, 2023, 266, 118289.

(18) H. Guo, X. Lu, Y. Yang, J. Wei, L. Wu, L. Tan, Y. Tang*, X. Gu*, Harvesting Alkyl Phenols from Lignin Monomers via Selective Hydrodeoxygenation under Ambient Pressure on Pd/α-MoC Catalysts. Molecular Catalysis, 2023, 540, 113041.

         (17) C. Zhu, K. Xu, Y. Fang, Q. Lv, K. Jiang, H. Zhao, Y. Chen, P. Wang, H. Yang, L. Wu, Yu Tang, Li Tan*, Synergetic effect of Ce/Zr for ethanol synthesis from syngas over Rh-based catalyst, Fuel2023, 343, 126770.

         (16) J. Yao, Y. Xu, H. Yang, Z. Ren, L. Wu*, Y. Tang*, Identifying the metallic state of Rh catalyst on boron nitride during partial oxidation of methane by using the product molecule as the infrared probe. Catalysts, 2022, 12, 1146.

         (15) 续开壮, 吕倩, 曹逢海, 李艳茹, 吴立志*, 谭理*, Ce改性的Rh-UiO-66-Zr催化剂对合成气制乙醇的影响, 燃料化学学报,2022,50, 1591-1600.

(14) H. Zhao, R. Yu, S. Ma, K. Xu, Y. Chen, K. Jiang, Y. Fang, C. Zhu, X. Liu, Y. Tang, L. Wu, Y. Wu, Q. Jiang, P. He, Z. Liu*, L. Tan*. The role of Cu1–O3 species in single-atom Cu/ZrO2 catalyst for CO2 hydrogenation. Nature Catalysis2022,5,818-831.

(13) L. Wu*, Z. Fu; J.Wei, H. Deng, Y. Zhang, Y. Tang. L. Tan*, The investigation into the dehydroaromatization of ethane over cobalt-modified ZSM-5 catalyst, Microporous and Mesoporous Materials, 2022, 343, 112159.

(13) H. Lin, P. Sun, Y. Xu, X. Zong, H. Yang, X. Liu, H. Zhao, L. Tan, L. Wu, Y. Tang*.Enhanced selective cleavage of aryl C-O bond by atomically dispersed Pt on α-MoC for hydrodeoxygenation of anisole. Molecular Catalysis, 2022, 531, 112652.

(12) X. Liu, S. Zhang, H. Zhao, H. Lin, K. Xu, Y. Xu, L. Tan,L. Wu, Y. Tang. In-situ studies on the synergistic effect of Pd-Mo bimetallic catalyst for anisole hydrodeoxygenation.Molecular Catalysis, 2022, 530, 112591.

(11) Z. Ren, Y. He, M. Yang, H. Deng, Y. Zhang, H. Yang, Z. Tang,  L. Tan, Y. Tang, L. Wu*, The investigation into the different Co species over Silicalite-1 via modulating heat-treatment atmosphere for propane dehydrogenation. Molecular Catalysis, 2022, 530, 112580.

        (10) H. Yang,R. Yu,Y. Fang,J. Yao,Y. Gan,J. Chen,H. Deng,X. Gao, X. Zong, J. Wang,L. Wu,Li Tan*,Yu Tang*, Singly Dispersed Ir1Ti3 Bimetallic Site for Partial Oxidation of Methane at High Temperature, Applied Surface Science, 2022, 599, 153863.

(9) P. Wang, J. Yao, Q. Jiang, X. Gao, D. Lin, H. Yang, L. Wu, Y. Tang*, L. Tan*, Stabilizing the Isolated Pt Sites on PtGa/Al2O3 Catalyst via Silica Coating Layers for Propane Dehydrogenation at Low Temperature, Applied Catalysis B: Environmental, 2022, 300, 120731.

(8) L. Wu*, Z. Ren, Y. He, M. Yang, Y. Yu, Y. Liu, L. Tan, Y. Tang*, Atomically Dispersed Co2+ Sites Incorporated into a Silicalite-1 Zeolite Framework as a High-Performance and Coking-Resistant Catalyst for Propane Nonoxidative Dehydrogenation to Propylene, ACS Applied Materials & Interfaces, 2021,13, 48934-48948.

(7) L. Wu*, Z. Fu; Z. Ren, J. Wei, X. Gao, L. Tan, Y. Tang. Enhanced Catalytic Performance of Fe-containing HZSM-5 for Ethane Non-Oxidative Dehydrogenation via Hydrothermal Post-Treatment. ChemCatChem, 2021,13, 4019-4028.

(6) L. Wu; S. Zhao; L. Lin; X. Fang; Y. Liu*; M. He, In-depth understanding of acid catalysis of solvolysis of propene oxide over titanosilicates and titanosilicate/H2O2 systems, Journal of Catalysis, 2016, 337, 248~259.

(5) L. Wu; X. Deng; S. Zhao; H. Yin; Z. Zhuo; X. Fang; Y. Liu*; M. He, Synthesis of a highly active oxidation catalyst with improved distribution of titanium coordination states, Chemical Communication, 2016, 52, 8679~8682.

(4) L. Wu; Z. Tang; Y. Yu; X. Yao; W. Liu; L. Li; B. Yan; Y. Liu*; M. He, Synthesis of a high-performance titanosilicate catalyst with controllable defective Ti(OSi)3OH sites, Chemical Communication, 2018, 54, 6384~6387.

(3) X. Fang; L. Wu; Y.  Yu; L. Sun; Y.  Liu*, Improving the catalytic performance of TS-1 through Zn(AC)2 modification, Catalysis Communication, 2018, 114, 1~5.

         (2) Z. Zhuo, L. Wang, X. Zhang, L. Wu, Y.Liu* M. He, Insights into the key to highly selective synthesis of oxime via ammoximation over titanosilicates,  Journal of Catalysis, 2015, 329,107-118.

(1) Z. Zhuo; L. Wu; L. Wang; Y.  Ding; X. Zhang; Y.  Liu*; M. He, Lewis acidic strength controlled highly selective synthesis of oxime via liquid-phase ammoximation over titanosilicates, RSC Advances, 2014, 4, 55685~55688.

专利

(7)  吴立志; 贺永生,邓辉辉,张颖,任壮壮,王小芳,郑文春,孙琴;  用于丙烷低温脱氢制丙烯的Pt基催化剂及其制备方法, CN202310662733.0.

(6) 吴立志; 任壮壮;傅智远;韦金河;贺永生;杨萌;一种钴基分子筛催化剂及其制备方法与应用, CN113509955A

(5) 刘月明; 吴立志; 邓秀娟; 卓佐西; 张小千; 樊荟; 王磊; 何鸣元, 一种钛硅分子筛催化剂及其制备方法和应用, ZL201410109622.8。

(4) 刘月明; 卓佐西; 吴立志; 张小千; 王磊; 樊荟; 何鸣元, 一种肟的制备方法, ZL201410075430.X。

(3) 刘月明; 姚旭婷; 吴立志; 赵淑芳; 尹寒梅; 张晓伟; 王建豪; 杨迪, 一种环己烯水合制环己醇的方法, ZL201510627697.X。

(2) 刘月明; 卓佐西; 邓秀娟; 吴立志; 林龙飞; 张小千; 何鸣元, 一种微球钛硅分子筛催化剂的制备方法, 2014.10.15-2024.10.15,ZL201310102318.6。

         (1)刘月明; 邱彩凤, 赵淑芳, 林龙飞, 樊荟, 王磊, 张小千, 吴立志,卓佐西, 一种MCM-49分子筛的制备方法, ZL201410115730.6。


获奖情况



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