郭倩,女,1994年08月出生,williamhill威廉希尔官网土木學院講師,工學博士。
主要研究方向:光(電)催化;高級氧化技術,水污染處理。
教育經曆:
2019.09-2024.04 獲湖南大學 環境科學與工程專業博士學位;
2016.09-2019.07 獲湖南大學 環境工程專業碩士學位;
2012.09-2016.06 獲武漢科技大學 環境工程專業學士學位;
主要科研項目:
[1] 國家自然科學基金面上項目,水體中腐殖質與Cr(VI)複合污染物的相互作用機制及其電化學協同去除機理研究。(編号51779091,參與,已結題)
[2] 湖南省重點研發項目,揮發性有機氯廢水高效電化學處理技術。(編号2018SK2025,參與,已結題)
主要學術成果:
[1] Qian Guo, Chao Lei, Wenqian Chen, and BinbinHuang*. Wireless Photoelectrochemical Strategy Driven by Nanobipolar Electrodes for Water Remediation. ACS ES&T Water, 2023, 3(8), 2437-2448. (兩年IF= 5.3).
[2] Qian Guo, Chao Lei, Wenqian Chen, Jinhya Zhang, BinbinHuang*. Electric-Field-Driven Nanoparticles ProduceDual-Functional Bipolar Electrode and Nanoelectrolytic Cells for Water Remediation. Cell Reports Physical Science. 2021, 2.1. (Cell高水平子刊IF= 8.9).
[3] Hanshuang Yin, Qian Guo, Chao Lei, Wenqian Chen, Binbin Huang* Electrochemical-driven carbocatalysis as highly efficient advanced oxidation processes for simultaneous removal of humic acid and Cr(VI). Chemical Engineering Journal. 2020, 396, 125156. (IF= 15.1, 一區TOP期刊).
[4] Ge Zhenting, Wang Xuxu, Xiaojia Lei, Wenqian Chen, Qian Guo, Chao Lei, Yi-Ge Zhou, Chunhua Feng, and Huang Binbin*. Electric-field-enhanced carbon nanotubes dual-functional bipolar electrodes for permanganate activation. Environmental science & technology, 58(2024): 11843. (IF= 11.4, 一區TOP期刊,環境領域頂刊).
[5] Xiaojia Lei, Chao Lei, Wenqian Chen, Qian Guo, BinbinHuang*. Photoelectrochemically driven nanoparticulate semiconductors as nanobipolar electrodes for advanced water remediation. Cell Reports Physical Science(SCI 2022 IF= 8.9). 2022, 3.11. (Cell高水平子刊IF= 8.9).
[6] Huang, Binbin, Qi, Chaoyuan, Yang, Zhan, Guo, Qian, Chen, Wenqian, Zeng, Guangming, Lei, Chao. Pd/Fe3O4 nanocatalysts for highly effective and simultaneous removal of humic acids and Cr (VI) by electro-Fenton with H2O2 in situ electro-generated on the catalyst surface. Journal of catalysis, 2017, 352, 337-350. (IF= 7.3,一區TOP期刊)
[7] Jingya Zhang, Chao Lei, Wenqian Chen, Qianqian Xie, Qian Guo, Binbin Huang. Electrochemical-driven nanoparticulate catalysis for highly efficient dechlorination of chlorinated environmental pollutant. Journal of catalysis,2021, 395, 362-374. (IF= 7.3,一區TOP期刊)
