Wanglu Associate professor

• Department: School of Architectural Engineering
• Gender: female
• BirthDate:
• Career: Associate professor
• Degree:
• Academic Credentials:
• Graduate School: Xian Jiaotong University
• Tel: 15929914986
• Email: luwang@chd.edu.cn
• Address School:
• PostCode School:
• Fax School: 710061
• Office Location:
• Education experience:

  2018.11-2019.1 Visiting Scholar, Department of Chemical Engineering and Biology, Hong Kong University of Science and Technology (Professor  Shao Minhua)

  
  

  2015.2-2016.2 Government-sponsored study in Brookhaven National Laboratory, Columbia University, USA (Prof. Jingguang Chen)

  
  

  2011.9-2016.6 Master Degree (exemption) Chemical Engineering of Xi 'an Jiaotong University (Professor Yang Bolun)

  
  

  2007.9-2011.7 Bachelor of Chemical Engineering and Technology, Xi 'an Jiaotong University

  
  

Associate Professor Lu Wang is the introduction of talents of Chang 'an University. She received Bachelor and Ph.D. degree from Xi’an JiaotongUniversity.She had been inColumbia University as an exchange student during her Ph.D. study. Before joiningChang’an University, she started herfaculty career at Xi’an Jiaotong Universityin 2016. She was also as a visiting scholar in the Hong Kong University of Science and Technology. Her main research interests are the green treatment and resource utilization of urea-containing wastewater/urine. Based on urea fuel cells and urea electrolytic hydrogen production technology, a new type of efficient and stable urea electrooxidation catalyst is developed, and its influence mechanism is deeply explored by combining electrochemical in-situ infrared and density functional theory calculations. For the first time, the products CNO^- and CO₂ in two urea electrooxidation paths were confirmed by in-situ electrochemical infrared, and the urea electrooxidation activity and stability of Ni-based catalysts were greatly improved by introducing transition metal carbides. Research results have been cited many times in top journals such as Chemical Society Reviews and Angewandte Chemie International Edition.

She published 13 high-level SCI papers with a total impact factor over 100, including being the first/corresponding author in the internationally renowned journal Applied Catalysis B: Environmental (IF=22.1), Chemical Engineering Journal (IF=15.1), ACS Applied Materials & Interfaces (IF=9.5), Journal of Power Sources (IF= 9.2) and Chemical Communications (IF= 4.9), and published paper in Chinese core journal Chemical Engineering as the first and corresponding author. What’s more, She is a reviewer of international leading journals such as Applied Catalysis B: Environmental, ACS Catalysis, Journal of the Electrochemical Society, Journal of Hazardous Material and Thin Solid Film.

Main research direction:

1.The green treatment and resource utilization of urea-containing wastewater/urine.

2.Development of efficient and stable catalysts for urea fuel cells and urea electrolysis.

Undergraduate course:

1.General Chemistry

[1]Principal Investigator of National Natural Science Foundation of China (Youth Project), Study on Co-strengthening mechanism of transition metal carbides on formation and stability of active component NiOOH of urea electrooxidation Catalyst, 240,000 yuan.

[2]Principal Investigator of Shaanxi Natural Science Foundation General Project (Youth), Research on Controllable Construction of Highly dispersed Ni/WC nanocomposite Catalyst and electrochemical oxidation of urea, 30,000 yuan.

[3]Principal Investigator of Basic Research Fund Free Exploration and Innovation Project, the regulatory mechanism of transition metal carbides on Ni-based urea electrooxidation catalyst, 150,000 yuan.

[4]Principal Investigator of New Faculty Research Support Program, Controlled Synthesis of transition metal Composites based on Urea fuel cell anode Catalyst, 100,000 yuan.

[5]Participated in University Student Innovation Project (national level), development of new urea fuel cells, 10,000 yuan, excellent, instructor.

[6]Participated in National Natural Science Foundation of China Youth Science Foundation Project, Study on the synergistic mechanism of carrier acidity and MnOx oxidation reduction in low-temperature denitrification supported manganese oxide catalyst, 250,000 yuan.

[7]Participated in Project of the National Natural Science Foundation of China, Potential modulation combined with Multi-effect Interface Construction of Multi-electron transport vanadyl oxyfluorophosphate group high energy high power room temperature rechargeable sodium battery cathode material research, 600,000 yuan.

[8]Participated in Controlled preparation of a novel three-dimensional ordered macroporous M@TiO₂(M=CdS,Fe₂O₃,WO₃) composite and its mechanism of photocatalytic activity enhancement, 250,000 yuan.

1.Lu Wang*, Nebojsa Marinkovic, Shyam Kattel, Bolun Yang*, and Jingguang G. Chen*. Insight into the synergistic effect between nickel and tungsten carbide for catalyzing urea electrooxidation in alkaline electrolyte[J]. Applied Catalysis B: Environmental 2018, 232: 365-370. (IF: 24.319，国际顶级期刊，环境工程领域排名第一)

2.Lu Wang*, Shangqian Zhu, Yian Wang, Zhipeng Liu, Yushen Liu, Qi Wang, Meng Gu, Kedi Li, Xianda Sun, Liwei Yang, Minhua Shao*. Amorphous nickel tungstate nanocatalyst boosts urea electrooxidation[J]. Chemical Engineering Journal 2023, 460: 141826. (一区，IF: 15.1)

3.Lu Wang*, Zhipeng Liu, Shangqian Zhu, Minhua Shao, Bolun Yang*, and Jingguang G. Chen*. Tungsten carbide and cobalt modified nickel nanoparticles supported on MWCNTs as highly efficient electrocatalysts for urea oxidation in alkaline electrolyte. ACS Applied Materials & Interfaces 2018, 10 (48): 41338-41343. (一区，IF: 10.383)

4.Lu Wang, Elizabeth G. Mahoney, Shen Zhao, Bolun Yang*, Jingguang G. Chen*. Low loading of platinum on transition metal carbides for hydrogen oxidation and evolution reactions in alkaline electrolyte[J]. Chemical Communications 2016, 52(18): 3697-3700. (一区，IF: 6.065)

5.Lu Wang, Mingtao Li, Suitao Qi, Chunhai Yi, Bolun Yang*. Ni-WC/C nanocluster catalysts for urea electrooxidation. Journal of Power Sources 2014, 264: 282-289. (一区，IF: 9.794)

6.Lu Wang, Tingting Du, Jin Cheng, Bolun Yang*. Enhanced activity of urea electrooxidation on Ni catalysts supported on tungsten carbides/carbon nanotubes. Journal of Power Sources 2015, 280: 550-554. (一区，IF: 9.794)

7.Lu Wang, Tingting Du, Yanbo Pan, Mingtao Li, Bolun Yang*. Nickel-based Catalysts Supported on Carbon Materials for Urea Electrooxidation. The 6th International Symposium on Carbon for catalysis, Carbocat-VI. Trondheim, Norway, 2014, 6.

8.Mingtao Li*, Lu Wang, Bolun Yang. Facile preparation of polymer electrolytes based on the polymerizedionic liquid poly for lithium secondary batteries. Electrochimica Acta 2014, 123: 296-302. (IF: 7.336)

9.Peng Qiu, Lu Wang, Xuedong Jiang, and Bolun Yang*. Synthesis of Diethyl Carbonate by the Combined Process of Transesterification with Distillation. Energy & Fuels 2012, 26 (2): 1254-1258. (IF: 4.654)

10.Mingtao Li*, Lu Wang, Tingting Du. Preparation of Polymer Electrolytes Based on the Polymerized Imidazolium Ionic Liquid and Their Applications in Lithium Batteries. Journal of Applied Polymer Science 2014, 131: 40928. (IF: 3.057)

11.Kumar Siddharth, Yattung Chan, Lu Wang, Minhua Shao*. Ammonia electro-oxidation reaction: Recent development in mechanistic understanding and electrocatalyst design. Current Opinion in Electrochemistry 2018, 9: 151-157. (IF: 7.664)

12.Mingtao Li*, Bolun Yang, Lu Wang, Ying Zhang, Shaohua Fang. New polymerized ionic liquid (PIL) gel electrolyte membranes based on tetraalkylammonium cations for lithium ion batteries. Journal of Membrane Science 2013, 447: 222-227. (IF: 10.53)

13.Peng Zhang, Xiangyang Mao, Rongli Mi, Lu Wang, Bolun Yang*. Encapsulated phosphotungstic acid catalysts for alkylation desulfurization. Catalysis Letters 2021, 151, 95. (IF:2.936)

14.Mingtao Li*, Bolun Yang, Zhan Zhang, Lu Wang, Ying Zhang. Polymer gel electrolytes containing sulfur-based ionic liquids in lithium battery applications at room temperature. Journal of Applied Electrochemistry 2013, 43: 515-521. (IF: 2.384)

15.王鹭*, 田彦妮, 张珂, 袁立杰, 赵晓红, 杨伯伦. 直接尿素燃料电池研究进展[J]. 化学工程 2023, 6 (51): 18-23.

16.王鹭*，田彦妮，张珂，袁立杰，赵晓红，杨伯伦.基于原位技术的尿素电氧化催化机理研究进展[J].化学工程（已录用）

17.王鹭*，张珂，袁立杰，郭嘉玉，田彦妮.基于尿素电氧化技术的空间站新型污水回用系统设计[J].西北工业大学学报（已录用）

[1]Applied Catalysis B: Environmental, ACS Catalysis, Journal of the Electrochemical Society, Journal of Hazardous Material, International authoritative journal reviewer such as Thin Solid Film.

[2] Outstanding Contribution Award for Public Service, School of Chemical Engineering, Xi 'an Jiaotong University.

[3] Guide students to win the national Excellence Award of Excellent Undergraduate Graduation Design and College Student Innovation Project.

[4] Xi 'an Jiaotong University Admission Advanced Individual.

[5] Guided students to win the national second prize of the fifth Deepwater Cup National College Student Water Supply and Drainage Science and Technology Innovation Competition.

[6] Guided students to win the university-level bronze Award in the 9th China International Internet + Innovation and Entrepreneurship Competition for College Students of Chang 'an University.

2016.6-2021.6  Lecturer                          School of Chemical Engineering and Technology, Xi 'an Jiaotong University

2021.6- Now    Associate Professor        School of Architectural Engineering,                      Chang 'an University