[1] |
ZHANG C L,CUI S J,WANG Y.Adsorption removal of pefloxacin from water by halloysite nanotubes[J].Journal of Industrial and Engineering Chemistry,2015,23:12-15.
|
[2] |
ZHOU Y Y,HE Y Z,XIANG Y J,et al.Single and simultaneous adsorption of pefloxacin and Cu (Ⅱ) ions from aqueous solutions by oxidized multiwalled carbon nanotube[J].Science of the Total Environment,2019,646:29-36.
|
[3] |
YU J,VODYANIK M A,SMUGA-OTTO K,et al.Bacteria subsisting on antibiotics[J].Science, 2007, 318(5858):1917-1920.
|
[4] |
YIP C,LEE A J.Gatifloxacin-induced hyperglycemia:A case report and summary of the current literature[J].Clinical Therapeutics,2006,28(11):1857-1866.
|
[5] |
CHEN K,ZHOU J L.Occurrence and behavior of antibiotics in water and sediments from the Huangpu River, Shanghai, China[J].Chemosphere,2014,95:604-612.
|
[6] |
CHEN J,LIU Y S,ZHANG J N,et al.Removal of antibiotics from piggery wastewater by biological aerated filter system:Treatment efficiency and biodegradation kinetics[J].Bioresource Technology,2017,238:70-77.
|
[7] |
BELTRÁN F J,AGUINACO A,GARCÍA-ARAYA J F,et al.Ozone and photocatalytic processes to remove the antibiotic sulfamethoxazole from water[J].Water Research,2008,42(14):3799-3808.
|
[8] |
LIU X C,YANG D X,ZHOU Y Y,et al.Electrocatalytic properties of N-doped graphite felt in electro-Fenton process and degradation mechanism of levofloxacin[J].Chemosphere,2017,182:306-315.
|
[9] |
姜鹏,李一兵,童雅婷,等.氧化石墨烯负载零价纳米铁吸附水中环丙沙星的研究[J].环境科学学报,2016,36(7):2443-2450.
|
[10] |
MALIK R,GOYAL A,YADAV S,et al.Functionalized magnetic nanomaterials for rapid and effective adsorptive removal of fluoroquinolones:Comprehensive experimental cum computational investigations[J]. Journal of Hazardous Materials, 2019, 364:621-634.
|
[11] |
XIANG Y J,YANG X,XU Z Y,et al. Fabrication of sustainable manganese ferrite modified biochar from vinasse for enhanced adsorption of fluoroquinolone antibiotics:Effects and mechanisms[J].Science of the Total Environment,2020,709:136079.
|
[12] |
HAN X L,HE Y,ZHAO H H,et al.Optimization of preparation conditions of activated carbon from the residue of desilicated rice husk using response surface methodology[J].Korean Journal of Chemical Engineering,2014,31(10):1810-1817.
|
[13] |
ZHANG X B,ZHANG Y C,NGO H H,et al.Characterization and sulfonamide antibiotics adsorption capacity of spent coffee grounds based biochar and hydrochar[J]. Science of the Total Environment,2020,716:137015.
|
[14] |
ZHANG X Y,HAN X L,CHANG C,et al.Bisphenol S adsorption with activated carbon prepared from corncob:Optimization using response surface methodology[J]. International Journal of Chemical Engineer,2020,18(4):1-12.
|
[15] |
YU X,HAN Z J,FANG S Q,et al.Optimized preparation of high value-added activated carbon and its adsorption properties for methylene blue[J].International Journal of Chemical Reactor Engineering,2019,17(8):1-16.
|
[16] |
HU Q S,LIU Y L,GU X Y,et al.Adsorption behavior and mechanism of different arsenic species on mesoporous MnFe2O4 magnetic nanoparticles[J]. Chemosphere,2017,181:328-336.
|
[17] |
马志强,胥思勤,彭刚毅,等.富里酸对金属Sb (Ⅲ)的吸附作用研究[J].应用化工,2020,49(9):2190-2194.
|
[18] |
HAMILTON A R,HUTCHEON G A,ROBERTS M,et al.Formulation and antibacterial profiles of clay-ciprofloxacin composites[J].Applied Clay Science,2014,87:129-135.
|