期刊论文

[1] Chen MeiJuan, Yao J., Huang Y., Gong H., Chu W., Chemical Engineering Journal, Enhanced photocatalytic degradation of ciprofloxacin over Bi2O3/(BiO)2CO3 heterojunctions: Efficiency, kinetics, pathways, mechanisms and toxicity evaluation. 334: 453-461, 2018. (SCIIF=6.216)

[2] Chen MeiJuan, Chu.W., Beiyuan J. Z., Huang Y., Chinese Journal of Catalysis, Enhancement of UV-assisted TiO2 degradation of ibuprofen using Fenton hybrid process at circumneutral pH. 2017. In press (SCIIF=2.628)

[3] Chen MeiJuan, Li Y., Wang Z., Industrial & Engineering Chemistry Research, Controllable synthesis of core–Shell Bi@amorphous Bi2O3 nanospheres with tunable optical and photocatalytic activity for NO Removal. 56(37): 10251-10258, 2017. (SCIIF=2.843、封面论文)

[4] Chen MeiJuan, Huang, Y., Yao, J., et al. Applied Surface Science, Visible-Light-Driven N-(BiO)2CO3/graphene oxide composites with improved photocatalytic activity and selectivity for NOx removal. 2017. In press (SCIIF=3.387)

[5] Chen MeiJuan, Huang, Y., Lee, S., Chinese Journal of Catalysis, Salt-assisted synthesis of hollow Bi2WO6 microspheres with superior photocatalytic activity for NO removal. 38(2): 348-356, 2017. (SCIIF=2.628)

[6] Chen MeiJuan, Chu, W., Chemical Engineering Journal, H2O2 assisted degradation of antibiotic norfloxacin over simulated solar light mediated Bi2WO6: Kinetics and reaction pathway. 296: 310–318, 2016. (SCIIF=6.216)

[7] Chen MeiJuan, Chu, W., Applied Catalysis B: Environmental, Photocatalytic degradation and decomposition mechanism of fluoroquinolones norfloxacin over bismuth tungstate: Experiment and mathematic model. 168: 175-182, 2015. (SCIIF=9.446)

[8] Chen MeiJuan, Chu, W., Chemical Engineering Journal, Photo-oxidation of an endocrine disrupting chemical o-chloroaniline with the assistance of TiO2 and iodate: Reaction parameters and kinetic models. 24: 273-279. 2014. (SCIIF=6.216)

[9] Chen MeiJuan, Chu, W., Journal of Hazardous Materials, Degradation of antibiotic norfloxacin in aqueous solution by visible-light-mediated C-TiO2 photocatalysis. 219: 183-189, 2012. (SCIIF=6.065)

[10] Chen MeiJuan, Chu, W., Industrial & Engineering Chemistry Research, Efficient Degradation of an Antibiotic Norfloxacin in Aqueous Solution via a Simulated SolarLight-Mediated Bi2WO6 Process. 51(13): 4887-4893. 2012. (SCIIF=2.843)

[11] Chen MeiJuan, Tang, Y., Li, B., Luo, L., Journal of Nanoscience and Nanotechnology, Nanocrystalline CdS/ZnO Thin Films: Fabrication and Application to Solar Cells. 9(2): 1505-1508. 2009. (SCIIF=1.483)

[12] Yip J.*, Chen MeiJuan, Szeto, Y. S., YanSuicheong., Bioresource Technology, Comparative study of liquefaction process and liquefied products from bamboo using different organic solvents. 100(24): 6674-6678, 2009. (SCIIF=5.651) 

[13] Gong H, Chu W*., Chen MeiJuan., et al. Water research, A systematic study on photocatalysis of antipyrine: Catalyst characterization, parameter optimization, eaction mechanism a toxicity evolution to plankton. 112: 167-175, 2017. (SCIIF=7.715)

[14] Yao, J., Zhang, Y., Wang, Y.*, Chen MeiJuan., Huang, Y., et al. RSC Advances, Enhanced photocatalytic removal of NO over titania/hydroxyapatite (TiO2/HAp composites with improved adsorption and charge mobility ability. 7(40): 24683-24689. 2017. (SCIIF=3.108)

[15] Rao, Y. F.*, Chen MeiJuan, Zhou, M., Journal of Advanced Oxidation Technologies, Degradation of diclofenac by Co3O4-catalyzed activation of oxoneprocess. 17(1): 145-151, 2014. (SCIIF=0.564)

[16] Zou C. W.*, Rao Y. F., Ahmed A., Chu W., Chen MeiJuan, Langmuir, Patterson D.A., Emanuelsson, E.A.C., and Gao W. Heterogeneous lollipop-like V2O5/ZnO array: a promising composite nanostructure for visible light photocatalysis. 26(14): 11615-11620, 2010. (SCIIF=3.833)

[17] Tang Y.*, Hu X., Chen MeiJuan, et al., Electrochimica Acta, CdSe nanocrystal sensitized ZnO core-shell nanorod array films: Preparation and photovoltaic properties. 54(10): 2742-2747, 2009. (SCIIF=4.789)

[18] Huang, Y, Ai, Z., Ho, W., Chen MeiJuan. and Lee, S.*, Journal of Physical Chemistry C, Ultrasonic spray pyrolysis synthesis of porous Bi2WO6 microspheres and their visible-light-induced photocatalytic removal of NO. 114(14): 6342-6349, 2010. (SCIIF=4.536)

已授权专利

 [1] 发明专利 西安交通大学 陈美娟. 一种具有可见光活性的Bi2WO6微米球的制备方法 专利号:201510953658.9