参考文献/References:
[1]GODIYA C B,PARK B J. Removal of bisphenol A from wastewater by physical,chemical and biological remediation techniques. A review[J]. Environmental Chemistry Letters,2022,20(3):1801-1837.
[2]BERTHIAUME A,ARNOT J A,TOOSE L. Risk-based prioritization of organic substances in the Canadian National Pollutant Release Inventory using an evaluative regional-scale multimedia mass balance model[J]. Integrated Environmental Assesment and Management,2022,18(6):1722-1732.
[3]CAO X T,WANG K A,FENG X S. Removal of phenolic contaminants from water by pervaporation[J]. Journal of Membrane Science,2021,623:119043.
[4]DEHMANI Y,LAMHASNI T,MOHSINE A,et al. Adsorption removal of phenol by oak wood charcoal activated carbon[J/OL]. Biomass Conversion and Biorefinery,2022. [2022-07-19]. http://doi.org/10.1007/S13399-022-03036-5.
[5]GAI H J,QIAO L,ZHONG C Y,et al. A solvent based separation method for phenolic compounds from low-temperature coal tar[J]. Journal of Cleaner Production,2019,223:1-11.
[6]DENG Z H,LI N,JIANG H L,et al. Pretreatment techniques and analytical methods for phenolic endocrine disrupting chemicals in food and environmental samples[J]. TrAC Trends in Analytical Chemistry,2019,119:115592.
[7]ZHENG M Q,HAN Y X,HAN H J,et al. Synergistic degradation on phenolic compounds of coal pyrolysis wastewater(CPW)by lignite activated coke-active sludge(LAC-AS)process:Insights into succession of microbial community under selective pressure[J]. Bioresource Technology,2019,281:126-134.
[8]ZHANG M,ZHANG Z,LIU S C,et al. Ultrasound-assisted electrochemical treatment for phenolic wastewater[J]. Ultrasonics Sonochemistry,2020,65:105058.
[9]LASSOUANE F,AIT-AMAR H,AMRANI S,et al. A promising laccase immobilization approach for Bisphenol A removal from aqueous solutions[J]. Bioresource Technology,2019,271:360-367.
[10]ZHOU W T,ZHANG W X,CAI Y P. Laccase immobilization for water purification:A comprehensive review[J]. Chemical Engineering Journal,2021,403:126272.
[11]WANG H L,TANG C Z,YU G L,et al. A novel membrane-surface liquid co-culture to improve the production of laccase from Ganoderma lucidum[J]. Biochemical Engineering Journal,2013,80:27-36.
[12]GUO C L,ZHAO L T,WANG F,et al. β-carotene from yeasts enhances laccase production of pleurotus eryngii var. ferulae in co-culture[J]. Frontiers in Microbiology,2017,8:1101.
[13]TORRES J,SVISTUNENKO D,KARLSSON B,et al. Fast reduction of a copper center in laccase by nitric oxide and formation of a peroxide intermediate[J]. Journal of the American Chemical Society,2002,124(6):963-967.
[14]DATTA S,VEENA R,SAMUEL M S,et al. Immobilization of laccases and applications for the detection and remediation of pollutants:a review[J]. Environmental Chemistry Letters,2021,19(1):521-538.
[15]ZHANG Y,PIAO M Y,HE L Z,et al. Immobilization of laccase on magnetically separable biochar for highly efficient removal of bisphenol A in water[J]. RSC Advances,2020,10(8):4795-4804.
[16]SKORONSKI E,SOUZA D H,ELY C,et al. Immobilization of laccase from Aspergillus oryzae on graphene nanosheets[J]. International Journal of Biological Macromolecules,2017,99:121-127.
[17]PIAO M Y,ZOU D L,YANG Y S,et al. Multi-functional laccase immobilized hydrogel microparticles for efficient removal of bisphenol A[J]. Materials,2019,12(5):704.
[18]LI D W,CHENG Y,ZUO H,et al. Dual-functional biocatalytic membrane containing laccase-embedded metal-organic frameworks for detection and degradation of phenolic pollutant[J]. Journal of Colloid and Interface Science,2021,603:771-782.
[19]HONG C S,LAU C C Y,LEONG C Y,et al. A comparison of entrapped and covalently bonded laccase:Study of its leakage,reusability,and the catalytic efficiency in TEMPO-mediated glycerol oxidation[J]. Biocatalysis and Biotransformation,2018,36(5):352-361.
[20]DIAO Y H,WANG Q L,FU S Y. Laccase stabilization by covalent binding immobilization on activated polyvinyl alcohol carrier[J]. Letters in Applied Microbiology,2002,35(6):451-456.
[21]DATTA S,CHRISTENA L R,RAJARAM Y R S. Enzyme immobilization:An overview on techniques and support materials[J]. 3 Biotech,2013,3(1):1-9.
[22]WANG Z B,REN D J,ZHAO Y S,et al. Remediation and improvement of 2,4-dichlorophenol contaminated soil by biochar-immobilized laccase[J]. Environmental Technology,2021,42(11):1679-1692.
[23]SADEGHZADEH S,NEJAD Z G,GHASEMI S,et al. Removal of bisphenol A in aqueous solution using magnetic cross-linked laccase aggregates from Trametes hirsuta[J]. Bioresource Technology,2020,306:123169.
[24]GIRELLI A M,QUATTROCCHI L,SCUTO F R. Silica-chitosan hybrid support for laccase immobilization[J]. Journal of Biotechnology,2020,318:45-50.
[25]SANLIER S H,GIDER S,KOPRULU A. Immobilization of laccase for biotechnology applications[J]. Artifical Cells,Nanomedicine,and Biotechnology,2013,41(4):259-263.
[26]FENG Q,WU D S,HUAN S,et al. Study on the preparation of the AOPAN/MMT composite nanofibers and their application for laccase immobilization[J]. Journal of Engineered Fiber and Fabrics,2016,11(3):155892501601100.
[27]LIN J H,WEN Q L,CHEN S,et al. Synthesis of amine-functionalized Fe3O4@C nanoparticles for laccase immobilization[J]. International Journal of Biological Macromolecules,2017,96:377-383.
[28]XIA T T,LIU C Z,HU J H,et al. Improved performance of immobilized laccase on amine-functioned magnetic Fe3O4 nanoparticles modified with polyethylenimine[J]. Chemical Engineering Journal,2016,295:201-206.
[29]WANG Z,REN D,WU J,et al. Study on adsorption-degradation of 2,4-dichlorophenol by modified biochar immobilized laccase[J]. International Journal of Environmental Science and Technology,2022,19(3):1393-1406.
[30]IMAM A,SUMAN S K,SINGH R,et al. Application of laccase immobilized rice straw biochar for anthracene degradation[J]. Environmental Pollution,2021,268:115827.
[31]NAGHDI M,TAHERAN M,BRAR S K,et al. Immobilized laccase on oxygen functionalized nanobiochars through mineral acids treatment for removal of carbamazepine[J]. Science of the Total Environment,2017,584/585:393-401.
[32]TAHERAN M,NAGHDI M,BRAR S K,et al. Covalent immobilization of laccase onto nanofibrous membrane for degradation of pharmaceutical residues in water[J]. ACS Sustainable Chemistry & Engineering,2017,5(11):10430-10438.
[33]XUE P,LIU X P,GU Y H,et al. Laccase-mediator system assembling co-immobilized onto functionalized calcium alginate beads and its high-efficiency catalytic degradation for acridine[J]. Colloids and Surfaces B:Biointerfaces,2020,196:111348.
[34]DAASSI D,RODRIGUEZ-COUTO S,NASRI M,et al. Biodegradation of textile dyes by immobilized laccase from coriolopsis gallica into Ca-alginate beads[J]. International Biodeterioration & Biodegradation,2014,90:71-78.
[35]ASGHER M,NOREEN S,BILAL M. Enhancing catalytic functionality of trametes versicolor IBL-04 laccase by immobilization on chitosan microspheres[J]. Chemical Engineering Research and Design,2017,119:1-11.
[36]ZHANG J B,XU Z Q,CHEN H,et al. Removal of 2,4-dichlorophenol by chitosan-immobilized laccase from coriolus versicolor[J]. Biochemical Engineering Journal,2009,45(1):54-59.
[37]WU E H,LI Y X,HUANG Q,et al. Laccase immobilization on amino-functionalized magnetic metal organic framework for phenolic compound removal[J]. Chemosphere,2019,233:327-335.
[38]ISANAPONG J,PORNWONGTHONG P. Immobilized laccase on zinc oxide nanoarray for catalytic degradation of tertiary butyl alcohol[J]. Journal of Hazardous Materials,2021,411:125104.
[39]AL-ADHAMI A J H,BRYJAK J,GREB-MARKIEWICZ B,et al. Immobilization of wood-rotting fungi laccases on modified cellulose and acrylic carriers[J]. Process Biochemistry,2002,37(12):1387-1394.
[40]LIU Y Y,ZENG Z T,ZENG G M,et al. Immobilization of laccase on magnetic bimodal mesoporous carbon and the application in the removal of phenolic compounds[J]. Bioresource Technology,2012,115:21-26.
[41]NGUYEN L N,HAI F I,DOSSETO A,et al. Continuous adsorption and biotransformation of micropollutants by granular activated carbon-bound laccase in a packed-bed enzyme reactor[J]. Bioresource Technology,2016,210:108-116.
[42]ZHANG C Y,YOU S P,LIU Y D,et al. Construction of luffa sponge-based magnetic carbon nanocarriers for laccase immobilization and its application in the removal of bisphenol A[J]. Bioresource Technology,2020,305:123085.
[43]LI Q Y,WANG P Y,ZHOU Y L,et al. A magnetic mesoporous SiO2/Fe3O4 hollow microsphere with a novel network-like composite shell:synthesis and application on laccase immobilization[J]. Journal of Sol-Gel Science and Technology,2016,78(3):523-530.
[44]KUO P C,LIN Z X,WU T Y,et al. Effects of morphology and pore size of mesoporous silicas on the efficiency of an immobilized enzyme[J]. RSC Advances,2021,11(17):10010-10017.
[45]TOUAHAR I E,HAROUNE I,BA S,et al. Characterization of combined cross-linked enzyme aggregates from laccase,versatile peroxidase and glucose oxidase,and their utilization for the elimination of pharmaceuticals[J]. Science of the Total Environment,2014,481:90-99.
[46]DAI Y R,YAO J,SONG Y H,et al. Enhanced performance of immobilized laccase in electrospun fibrous membranes by carbon nanotubes modification and its application for bisphenol A removal from water[J]. Journal of Hazardous Materials,2016,317:485-493.
[47]XU R,SI Y F,WU X T,et al. Triclosan removal by laccase immobilized on mesoporous nanofibers:strong adsorption and efficient degradation[J]. Chemical Engineering Journal,2014,255:63-70.
[48]ZDARTA J,ANTECKA K,FRANKOWSKI R,et al. The effect of operational parameters on the biodegradation of bisphenols by trametes versicolor laccase immobilized on Hippospongia communis spongin scaffolds[J]. Science of the Total Environment,2018,615:784-795.
[49]DENG J B,WANG H F,ZHAN H S,et al. Catalyzed degradation of polycyclic aromatic hydrocarbons by recoverable magnetic chitosan immobilized laccase from Trametes versicolor[J]. Chemosphere,2022,301:134753.