[1] |
HALLING-SØRENSEN B, NIELSEN S N, LANZKY P F, et al. Occurrence, fate and effects of pharmaceutical substances in the environment- A review [J]. Chemosphere, 1998, 36(2): 357-393. doi: 10.1016/S0045-6535(97)00354-8
|
[2] |
MARTINEZ J L. Environmental pollution by antibiotics and by antibiotic resistance determinants [J]. Environmental Pollution, 2009, 157(11): 2893-2920. doi: 10.1016/j.envpol.2009.05.051
|
[3] |
高立红, 史亚利, 厉文辉, 等. 抗生素环境行为及其环境效应研究进展 [J]. 环境化学, 2013, 32(9): 1619-1633.
GAO L H, SHI Y L, LI W H, et al. Environmental behavior and impacts of antibiotics [J]. Environmental Chemistry, 2013, 32(9): 1619-1633(in Chinese).
|
[4] |
徐维海, 张干, 邹世春, 等. 典型抗生素类药物在城市污水处理厂中的含量水平及其行为特征 [J]. 环境科学, 2007, 28(8): 1779-1783.
XU W H, ZHANG G, ZOU S C, et al. Occurrence, distribution and fate of antibiotics in sewage treatment plants [J]. Environmental Science, 2007, 28(8): 1779-1783(in Chinese).
|
[5] |
章强, 辛琦, 朱静敏, 等. 中国主要水域抗生素污染现状及其生态环境效应研究进展 [J]. 环境化学, 2014, 33(7): 1075-1083. doi: 10.7524/j.issn.0254-6108.2014.07.001
ZHANG Q, XIN Q, ZHU J M, et al. The antibiotic contaminations in the main water bodies in China and the associated environmental and human health impacts [J]. Environmental Chemistry, 2014, 33(7): 1075-1083(in Chinese). doi: 10.7524/j.issn.0254-6108.2014.07.001
|
[6] |
叶必雄, 张岚. 环境水体及饮用水中抗生素污染现状及健康影响分析 [J]. 环境与健康杂志, 2015, 32(2): 173-178.
YE B X, ZHANG L. Analysis of the pollution status and health risk of antibiotics in water environment and drinking water [J]. Journal of Environment and Health, 2015, 32(2): 173-178(in Chinese).
|
[7] |
刘昔, 王智, 王学雷, 等. 我国典型区域地表水环境中抗生素污染现状及其生态风险评价 [J]. 环境科学, 2019, 40(5): 2094-2100.
LIU X, WANG Z, WANG X L, et al. Status of antibiotic contamination and ecological risks assessment of several typical Chinese surface-water environments [J]. Environmental Science, 2019, 40(5): 2094-2100(in Chinese).
|
[8] |
童蕾, 姚林林, 刘慧, 等. 抗生素在地下水系统中的环境行为及生态效应研究进展 [J]. 生态毒理学报, 2016, 11(2): 27-36.
TONG L, YAO L L, LIU H, et al. Review on the environmental behavior and ecological effect of antibiotics in groundwater system [J]. Asian Journal of Ecotoxicology, 2016, 11(2): 27-36(in Chinese).
|
[9] |
孙见蕊. 钛基掺硼金刚石薄膜电极的制备、性质及其在废水处理中的应用[D]. 长春: 吉林大学, 2012.
SUN J R. Preparation, properties of Ti/BDD electrodes and their applications in wastewater treatment [D]. Changchun: Jilin University, 2012(in Chinese).
|
[10] |
PÉREZ J F, LLANOS J, SÁEZ C, et al. Electrochemical jet-cell for the in situ generation of hydrogen peroxide [J]. Electrochemistry Communications, 2016, 71: 65-68. doi: 10.1016/j.elecom.2016.08.007
|
[11] |
SUN X P, LV J J, YAN Z H, et al. A three-dimensional gas diffusion electrode without external aeration for producing H2O2 and eliminating amoxicillin using electro-Fenton process [J]. Journal of Environmental Chemical Engineering, 2022, 10(2): 107301. doi: 10.1016/j.jece.2022.107301
|
[12] |
雷阳明, 申哲民, 祝松鹤, 等. 采用气体扩散电极降解酸性红B研究 [J]. 环境化学, 2005, 24(3): 330-333.
LEI Y M, SHEN Z M, ZHU S H, et al. Study on degradation of acid red b using gas diffusion electrode [J]. Environmental Chemistry, 2005, 24(3): 330-333(in Chinese).
|
[13] |
ZHANG Q Z, ZHOU M H, REN G B, et al. Highly efficient electrosynthesis of hydrogen peroxide on a superhydrophobic three-phase interface by natural air diffusion [J]. Nature Communications, 2020, 11: 1731. doi: 10.1038/s41467-020-15597-y
|
[14] |
JI Y F, FERRONATO C, SALVADOR A, et al. Degradation of ciprofloxacin and sulfamethoxazole by ferrous-activated persulfate: Implications for remediation of groundwater contaminated by antibiotics [J]. Science of the Total Environment, 2014, 472: 800-808. doi: 10.1016/j.scitotenv.2013.11.008
|
[15] |
EPOLD I, DULOVA N. Oxidative degradation of levofloxacin in aqueous solution by S2O82−/Fe2+, S2O82−/H2O2 and S2O82−/OH− processes: A comparative study [J]. Journal of Environmental Chemical Engineering, 2015, 3(2): 1207-1214. doi: 10.1016/j.jece.2015.04.019
|
[16] |
孙智宇. BDD阳极电解硫酸盐制备过硫酸盐的研究[D]. 太原: 太原理工大学, 2020.
SUN Z Y. Study on preparation of persulfate by electrolysis of sulfate on BDD anode[D]. Taiyuan: Taiyuan University of Technology, 2020(in Chinese).
|
[17] |
DIVYAPRIYA G, NIDHEESH P V. Electrochemically generated sulfate radicals by boron doped diamond and its environmental applications [J]. Current Opinion in Solid State and Materials Science, 2021, 25(3): 100921. doi: 10.1016/j.cossms.2021.100921
|
[18] |
NASHAT M, MOSSAD M, EL-ETRIBY H K, et al. Optimization of electrochemical activation of persulfate by BDD electrodes for rapid removal of sulfamethazine [J]. Chemosphere, 2022, 286: 131579. doi: 10.1016/j.chemosphere.2021.131579
|
[19] |
FU J L, ZHANG X W, LEI L C. Fe-modified multi-walled carbon nanotube electrode for production of hydrogen peroxide [J]. Acta Physico-Chimica Sinica, 2007, 23(8): 1157-1162. doi: 10.1016/S1872-1508(07)60060-6
|
[20] |
ZHOU W, RAJIC L, MENG X X, et al. Efficient H2O2 electrogeneration at graphite felt modified via electrode polarity reversal: Utilization for organic pollutants degradation [J]. Chemical Engineering Journal, 2019, 364: 428-439. doi: 10.1016/j.cej.2019.01.175
|
[21] |
LUO H J, LI C L, WU C Q, et al. Electrochemical degradation of phenol by in situ electro-generated and electro-activated hydrogen peroxide using an improved gas diffusion cathode [J]. Electrochimica Acta, 2015, 186: 486-493. doi: 10.1016/j.electacta.2015.10.194
|
[22] |
杨子增. UV/O3降解水中磺胺嘧啶的效能和机理研究[D]. 哈尔滨: 哈尔滨工业大学, 2016.
YANG Z Z. Performance and mechanism for degradation of sulfadiazine in water by UV/O3 process[D]. Harbin: Harbin Institute of Technology, 2016(in Chinese).
|
[23] |
余忆玄. 羟基自由基的生成及降解磺胺嘧啶方法和机理[D]. 大连: 大连海事大学, 2019.
YU Y X. Mechanism and method of production of hydroxyl radicals and fast degradation of sulfadiazine[D]. Dalian: Dalian Maritime University, 2019(in Chinese).
|
[24] |
TENG W, XU J, CUI Y J, et al. Photoelectrocatalytic degradation of sulfadiazine by Ag3PO4/MoS2/TiO2 nanotube array electrode under visible light irradiation [J]. Journal of Electroanalytical Chemistry, 2020, 868: 114178. doi: 10.1016/j.jelechem.2020.114178
|
[25] |
苟玺莹, 张盼月, 钱锋, 等. UV/H2O2降解水中磺胺嘧啶影响因素及机理 [J]. 环境工程学报, 2017, 11(11): 5810-5819.
GOU X Y, ZHANG P Y, QIAN F, et al. Influencing factors and mechanism of sulfadiazine degradation by UV/H2O2 [J]. Chinese Journal of Environmental Engineering, 2017, 11(11): 5810-5819(in Chinese).
|