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应用化学系

李忠涛(教授)

时间:2024-06-26浏览:4767

  


      名:

李忠涛


      称:

教授


  导师类别:

博士生导师


      室:

化学工程学院应用化学系


  研究领域:

聚合物复合材料、储能器件、

电化学和合成化学、工业催化剂


  电子邮箱:

liztao@upc.edu.cn


  联系电话:

0532-86984615


 

 

 


◎教育背景


2009/08–2011/05      加州大学圣巴巴拉分校,海洋生物材料系,博士后;

2004/09–2009/06      中国科学院化学研究所, 有机固体实验室,博士;

2000/09–2004/06      天津大学,高分子材料科学与工程系,学士;






 

 

 

 


◎工作经历


2020/01至今            中国石油大学(华东),化学工程学院,教授;

2012/04-2019/12      中国石油大学(华东),化学工程学院,副教授;

2011/05-2011/12      通用电气(中国)全球研发中心,塑料部,副研究员;





 

 

 

 


◎研究方向


锂离子电池及固态电池、聚合物基复合材料、电化学及有机化学、膜电极反应器、离子液体催化剂和树脂基催化剂






 

 

 

 


◎科研项目


负责承担纵向项目情况:

1. 国家重点研发计划战略性专项,高安全固态锂离子电池材料和可靠性研究(2023YFE0203600

2. 国家自然科学基金面上项目,金属/空气二次电池双功能电极用杂环类石墨材料的研究(51873231

3. 国家自然科学基金面上项目,结构可控氮掺杂共轭骨架材料的合成及其与金属氧化物复合用于制备锂电池电极(21572269

4. 山东省重大基础研究,共轭骨架型固态电解质制备及全电池组装工艺(ZR2021ZD24

5. 山东省杰出青年基金,高能量密度固态储能器件(ZR2020JQ21

6. 山东省重点研发计划,用于储能的多元掺杂纳米复合材料的可控制备(2017GGX40118





 

 

 

 

 

 

 

 

 

 


◎代表性论文及专利


1. 近年来代表性论文

[1] Co Single-Atom Catalysis for High   Efficiency LiCl/Cl2 Conversion in Rechargeable Lithium-Chlorine Batteries;   Peicai Li, Chenyu Ma, Yufeng Wang, Shibo Zhai, Guanzhong Ma, Debing Kong*, Zhongtao Li*. Advanced Materials, 2025, 2418990.
[2] V   activated electro-epoxidation catalyst in membrane electrode assembly system   for the production of propylene oxide; Yan Lin, Hui Li, Xiaodong Miao,   Yunayuan Sun, Hao Ren, Xifeng Yu, Wangyang Cui, Mingbo Wu,
Zhongtao Li*. Nature Communications, 2025, 16. 3113.
[3] Vacancy-Activated   B-Doping for Efficient 2e- Oxygen Reduction through Suppressing H2O2   Decomposition at High Overpotential; Wangyang Cui, Zhiyuan Zhen, Yuanyuan   Sun, Xiaofeng Liu, Jinhui Chen, Sijia Liu, Hao Ren, Yan Lin*, Mingbo Wu,
Zhongtao Li*. Angewandte Chemie-International Edition, 2025, e202423056.
[4]
 Regulating   catalyst and ionomer interactions to promote oxygen transport in fuel cells;   Min Wang, Shilin Zhang, Hao Wang, Enyang Sun, Yanrong Liu, Mingbo Wu, Di-Jia   Liu, Zhongtao Li*. Applied Catalysis B: Environmental, 2025, 365, 124894.
[5]
 Elucidating   the mechanistic synergy of fluorine and oxygen doping in boosting   platinum-based catalysts for proton exchange membrane fuel cells; Min Wang,   Enyang Sun, Shunsheng Zhao, Yuanyuan Sun, Shilin Zhang, Zhongtao Li*, Mingbo Wu*. Journal of Colloid and Interface Science, 2025, 682: 115–123.
[6]
 Liquid–Liquid   Equilibria Data and Thermodynamic Modeling of {Mesityl Oxide +   Diethoxymethane + Water} Ternary System at 303.15, 313.15, 323.15 K Under   101.325 kPa; Hongyue Guo, Tao Li, Qingsong Li, Zhongtao Li*. Journal of Solution Chemistry, 2025, 54: 168–177.

[7] Structural   modulation of ionic liquids as efficient catalysts for esterification   reaction; Ping Xie, Tianhao Zhong, Tao Li, Yiwu Lu, Yingmin Yu, Qingshan   Zhao, Zhongtao Li*. Canadian Journal of Chemical Engineering, 2024, 102(6): 2244–2255.
[8]
 Gel   Resin Supported Ionic Liquids as Solid Acids for Esterification Reaction;   Yulin Shao, Ping Xie, Yuning Han, Tianhao Zhong, Tao Li, Yingmin Yu, Qingshan   Zhao, Zhongtao Li*. Catalysis Letters, 2024, 154: 5998–6011.
[9]
 The   research progress on COF solid-state electrolytes for lithium batteries;   Yimou Wang, Qinglin Hao, Qing Lv, Xinchao Shang, Mingbo Wu*, Zhongtao Li*. Chemical Communications, 2024, 60: 10046–10063.
[10]
 Amphiphilic   Polymer Electrolyte Blocking Lattice Oxygen Evolution from High-Voltage   Nickel-rich Cathodes for Ultra-Thermal Stabile Batteries; Jialiang Chen, Yan   Lin, Qiang Li, Hao Ren, Linchen Zhang, Yuanyuan Sun, Siyu Zhang, Xinchao   Shang, Weidong Zhou*, Mingbo Wu*, Zhongtao Li*. Angewandte Chemie-International Edition, 2024, 63, e202407024.
[11]
 Hydrogen   Radical Enabling Industrial-Level Oxygen Electroreduction to Hydrogen   Peroxide; Song Xue, Xiaohui Li, Yuanyuan Sun, Wangyang Cui, Fengliang Cao,   Zhisheng Cao, Yin Huang, Mingzheng Shao, Zhongtao Li*, Linjie Zhi*. Angewandte Chemie-International Edition, 2024, e202420063.
[12]
 Enhancing   Interfacial Dynamic Stability Through Accelerated Reconstruction to Inhibit   Iron-Loss During Initial Electrochemical Activation; Yan Lin, Hao Ren, Siyu   Zhang, Sijia Liu, Tingting Zhao, WenJie Jiang*, Weidong Zhou*, Jin-Song Hu, Zhongtao Li*. Advanced Energy Materials, 2024, 14, 2302403.
[13]
 High-Entropy   and Multiphase Cathode Materials for Sodium-Ion Batteries; Li, Ranran; Qin,   Xuan*; Li, Xiaolei; Zhu, Jianxun; Zheng, Li-Rong*; Li, Zhongtao*; Zhou, Weidong*. Advanced Energy Materials, 2024, 14, 2302403.
[14] Regulating   Interfacial Li Deposition at Low-Temperature through Eliminating Li+ Transfer   Mismatching by Artificial Modifying the Interface in Solid State Battery;   Wenjie Ren, Xinchao Shang, Yan Lin, Hao Ren, Linchen Zhang, Hang Su, Qi Li,   Linjie Zhi, Mingbo Wu,
Zhongtao Li*. Advanced Energy Materials, 2024, 2405284.
[15] Synergistic   Interactions Between Co Nanoparticles and Unsaturated Co-N2 Sites for   Efficient Electrocatalysis; Min Wang, Jialiang Chen, Shilin Zhang, Yuanyuan   Sun, Weiling Kong, Lina Geng, Yan Li, Liming Dai,
Zhongtao Li*, Mingbo Wu. Advanced Functional Materials, 2024, 2410373.
[16] Inspiration   of Bimetallic Peroxide for Controllable Electrooxidizing Ethylene Glycol   Through Modulating Surficial Intermediates; Yan Lin, Yao Chen, Hao Ren,   Jinhui Chen, Mingbo Wu,
Zhongtao Li*. Advanced Functional Materials, 2024, 2404594.
[17]
 Cu-Sn   Bimetallic Activated Carbon–Carbon Coupling for Efficient Furfural   Electroreduction; Xiaofeng Liu, Yuanyuan Sun, Hao Ren, Yan Lin*, Mingbo Wu*, Zhongtao Li*. ACS Catalysis, 2024, 14, 5817-5826.
[18]
 Rigid   and flexible dual-network polymer electrolytes with enhanced interfacial   interaction to accelerate Li+ transfer; Qing Lv, Yuanyuan Sun, Sisi Jiang,   Hao Ren, Yan Lin, Qi Li, Liping Lu, Mingbo Wu*, Zhongtao Li*.Journal of Materials Chemistry A, 2024, 12: 28224–28232.
[19]
 Optimized   mass transfer in a Pt-based cathode catalyst layer for PEM fuel cells; Min   Wang, Juejin Teng, Shahid Zaman, Shilin Zhang, Xue Chen, Kunye Zhang, Xiuyue   Wang, Zhongtao Li* and Mingbo Wu*. Green Chemistry, 2024, 26, 4432-4448.
[20] In   Situ Carbon Thermal Reduction to Enrich Sulfur-Vacancy in Nickel Disulfide   Cathode for Efficient Synthesizing Hydrogen Peroxide; Sijia Liu, Hao Ren,   Fayou Tian, Lina Geng, Wangyang Cui, Jinhui Chen, Yan Lin*, Mingbo Wu,
Zhongtao Li*. Small, 2024, 20, 2405683.

[21] Amphoteric   covalent organic framework as single Li+ superionic conductor in   all-solid-state; Zhangzhen Cheng, Liping Lu, Siyu Zhang, Haiyan Liu, Tao   Xing, Yan Lin, Hao Ren, Zhongtao Li, Linjie Zhi*, Mingbo Wu.Nano Research, 2023, 16, 528-535.
[22] Theoretical   kinetic quantitative calculation predicted the expedited polysulfides   degradation; Siyu Zhang, Xianchao Rong, Tao Li, Wenjie Ren, Hao Ren*, Linjie   Zhi, Mingbo Wu*,
Zhongtao Li*. Nano Research, 2023, 16, 12035-12042.

[23] Recent   progress in the use of polyanions as solid electrolytes; Siyu Zhang, Yuran   Li, Tao Xing, Haiyan Liu, Zhaobin Liu, Zhongtao Li*, Mingbo Wu*. New Carbon Materials, 2022, 37(2): 358-370.
[24]
 Dual   breaking of ionic association in water-in-LiTFSI electrolyte for low   temperature battery applications; Changchang Li, Siyu Zhang, Yufeng Wang,   Haiyan Liu, Tao Xing, Yan Lin, Xianchao Rong, Hao Ren, Mingbo Wu*, Qamar   Abbas, Zhongtao Li*. Journal of Power Sources, 2022, 544, 231874.
[25]
 In situ   generated polymer electrolyte coating-based Janus interfaces for long-life   LAGP-based NMC811/Li metal batteries; Zhou Chen, Huanrui Zhang*, Hantao Xu,   Shanmu Dong, Meifang Jiang, Zhongtao Li*, Guanglei Cui*. Chemical Engineering Journal, 2022, 433, 133589.

[26] V “bridged” Co-O to Eliminate   Charge Transfer Barriers and Drive Lattice Oxygen Oxidation during   Water-Splitting; Zhongtao Li*, Jun Yang, Zhou Chen, Caiyan Zheng,   Liang Qin Wei, Yingchun Yan, Han Hu, Mingbo Wu*, Zhenpeng Hu*. Advanced Functional Materials, 2021, 31, 2008822.

[27] Controllable   Substitution of S Radicals on Triazine Covalent Framework to Expedite   Degradation of Polysulfides; Yingchun Yan, Zhou Chen, Jun Yang, Lu Guan, Han   Hu, Qingshan Zhao, Hao Ren, Yan Lin, Zhongtao Li*, Mingbo Wu*. Small, 2020, 16, 2004631.
[28]
 Uncovering   the chemistry of cross-linked polymer binders via chemical bonds for   silicon-based electrodes; Zhou Chen, Huanrui Zhang, Tiantian Dong, Pengzhou   Mu, Xianchao Rong, Zhongtao Li*.ACS Applied Materials & Interfaces, 2020, 12(42): 47164-47180.

2. 代表性专利

[1] 一种高循环稳定性、大容量的复合材料锂离子电池及其制备方法,发明专利2013105472860

[2] 一种用于锂电池的复合材料及由其制备的纽扣电池,发明专利2015100719160

[3] 一种用于锂离子电池电极的多层复合二氧化钛纳米管材料,发明专利2015103321776

[4] 一种用于锂电池负极的高氮含量锡碳复合材料及制备方法,发明专利2015106005821

[5] 一种用于燃料电池阴极的高氧还原活性的铁/碳化氮共掺杂复合材料,发明专利2016101181732

[6] 一种用于锂电池电极的四氧化三锰以及水锰矿复合材料,发明专利201610124318X

[7] 一种锂硫电池用修饰隔膜及其制备方法,发明专利   2017102772166

[8] 一种用于钠离子电池负极的有机磷化锡/氧化石墨复合材料,发明专利 201710990881X

[9] 一种用于锂硫电池正极的复合材料及其制备方法,发明专利   2018103701054

[10] 一种用于提高全解水催化活性的双金属共掺杂复合材料,发明专利   2018103835896

[11] 一种用于钠/钾离子电池负极的钛基复合材料的制备方法及其性能测试方法,发明专利 2019105728658

[12] 一种钠/钾电用硬软碳复合材料电极的制备方法,发明专利 2020106101482

[13] 一种用于钠硫二次电池的双金属硫化物的制备方法,发明专利2020106101872

[14] 一种用于有机/无机复合锂离子电池固态电解质材料的制备方法,发明专利202011041053X

[15] 一种全固态电解质的制备方法及应用,发明专利202210090152X

[16] 一种锂离子电池低共熔液体水系电解液的制备方法及应用,发明专利   2022103219265

[17] 一种负载离子液体的固体酸催化剂的制备方法及其应用,发明专利   2022109429820

[18] 一种电催化生产过氧化氢的催化剂的制备方法及其产品和应用,发明专利   2022115296012

 





 

 

 

 


◎代表性著作


 




 

 

 

 


◎获奖情况及荣誉称号


◎获奖情况

1. 2024年获山东省科学技术奖技术发明一等奖(1/11

2. 2022年获中国石油与化学工业科技进步奖二等奖(4/10

3. 2020年获中国化工学会技术发明奖二等奖(1/7

4. 2018获中国石油与化学工业技术发明奖二等奖(1/8

◎荣誉称号

1. 2020年获山东省自然科学基金杰出青年基金支持

2. 2019年获泰山学者称号

3. 2018年获全国石油与化学工业优秀科研工作者称号

4. 2018年获中国石油大学(华东)十佳百佳班主任称号

5. 2014年获青岛西海岸新区紧缺人才称号





 

 

 

 


◎执教课程


 





 

 

 

 


◎招收及指导研究生情况


1.    指导研究生情况

指导博士研究生11名,研究生21名;培养山东省优秀硕士论文2名,山东省优秀毕业生3名。

2.    招生专业及要求

欢迎具备化学、化工和材料相关专业背景,对新能源和催化材料有浓厚兴趣的优秀学生加入课题组!




 

 

 

 


◎学术兼职