Andrea

Dr. Siqi Liu

  • Karlsruhe Institute of Technology
    Institute for Advanced Membrane Technology
    Hermann-von-Helmholtz-Platz 1
    76344 Eggenstein-Leopoldshafen
    Germany

Research on the coupling of membrane separation (MS) and electrochemical oxidation (EO) has been a hot area in water pollution control for decades. This coupling aims to greatly improve water quality and focuses on the challenges in practical application to provide a promising solution to water shortage problems. In this case, development of an promising approach for a novel electrochemical membrane that exhibits outstanding properties and performance in the separation and electrochemical degradation would be essential.

 

Employment

  

Since-01.2021

Post-Doc at Karlsruhe Institute of Technology (KIT), Institute for Advanced Membrane Technology (IAMT), Germany

 

  

Education

  

2014.09-2020.09

Doctoral Degree in Enverionmental Engineering and Science,  Nanjing University of Science and Technology, Nanjing, China

2018.10-2019.09

Exchange Ph.D. student in Envrionmental Engineering,  University of Washington, Seattle, US

2010.09-2014.06

Bachelor Degree in Enverionmental Engineering,  Nanjing University of Science and Technology, Nanjing, China

 

  

Research Projects

  
 

NanoElectroMembrane Processes for the Removal of Trace Pollutants in Water Reuse

 

Publications

Siqi Liu, Weiqing Han*, Gregory V. Korshin*. (2020) Effects of Fulvic Acids on the Electrochemical Reactions and Mass Transfer Properties of Organic Cation Toluidine Blue: Results of Measurements by the Method of Rotating Ring-Disc Electrode. Water Research, 184, 116151

Siqi Liu, Marc F. Benedetti, Weiqing Han*, Gregory V. Korshin*. (2020) Comparison of the Properties of Standard Isolates of Soil and Aquatic Fulvic and Humic Acids: Data of Differential Absorbance and Fluorescence Spectroscopy. Chemosphere, 261, 128189.

Ruiqian Liu; Siqi Liu*; Qianrui Liu; Yonghao Zhang; Jiansheng Li; Weiqing Han*; Xiuyun Sun; Jinyou Shen. (2020) Inverse opal-like marcoporous RuO2 electrodes for enhancing the mass transfer in electro-oxidation of tricyclazole. Journal of Porous Materials, DOI: 10.1007/s10934-020-00914-z.

Siqi Liu, Ruiqian Liu, Yonghao Zhang, Weiqing Han*, Jiansheng Li, Xiuyun Sun, Jinyou Shen, Lianjun Wang*. (2019) Development of a 3D ordered macroporous RuO2 electrode for efficient pyrazole removal from water. Chemosphere, 237:124471.

Siqi Liu, Tao Cui, Anlin Xu, Weiqing Han*, Jiansheng Li, Xiuyun Sun, Jinyou Shen*, Lianjun Wang. (2018) Electrochemical treatment of flutriafol wastewater using a novel 3D macroporous PbO2 filter: operating parameters, mechanism and toxicity assessment, Journal of Hazardous Materials, 358,187-197.

Siqi Liu, Xiezhen Zhou, Weiqing Han*, Jiansheng Li, Xiuyun Sun, Jinyou Shen, Lianjun Wang*. (2018) Preparation of mesoporous crack-free Sb-SnO2 xerogels through ambient-pressure drying and its application as three-dimensional electrode. Journal of Sol-Gel Science and Technology, 86, 479-492.

Xiezhen Zhou, Siqi Liu, Hongxia Yu, Anlin Xu, Jiansheng Li, Xiuyun Sun, Jinyou Shen, Weiqing Han*, Lianjun Wang*. (2018) Electrochemical oxidation of pyrrole, pyrazole and tetrazole using a TiO2 nanotubes based SnO2-Sb/3D highly ordered macro-porous PbO2 electrode. Journal of Electroanalytical Chemistry, 826, 181-190.

Siqi Liu, Xiezhen Zhou, Weiqing Han*, Jiansheng Li, Xiuyun Sun, Jinyou Shen, Lianjun Wang*. (2017) Theoretical and experimental insights into the ·OH-mediated mineralization mechanism of flutriafol. Electrochimica Acta, 235, 223-232.

Siqi Liu, Yi Wang, Xiezhen Zhou, Weiqing Han*, Jiansheng Li, Xiuyun Sun, Jinyou Shen, Lianjun Wang*. (2017) Improved degradation of the aqueous flutriafol using a nanostructure macroporous PbO2 as reactive electrochemical membrane. Electrochimica Acta, 253, 357-367.

Xiezhen Zhou, Siqi Liu, Anlin Xu, Kajia Wei, Weiqing Han, Jiansheng Li, Xiuyun Sun, Jinyou Shen, Xiaodong Liu*, Lianjun Wang*. (2017) A multi-walled carbon nanotube electrode based on porous Graphite-RuO2 in electrochemical filter for pyrrole degradation. Chemical Engineering Journal, 330, 956-964.