[1] Hu P,Zhao Z,Sun X,et al.Construction of crystal defect sites in N-coordinated UiO-66 via mechanochemical in-situ N-doping strategy for highly selective adsorption of cationic dyes[J].Chemical Engineering Journal,2019,356:329-340.
[2] He X S,Yang D P,Zhang X Y,et al.Waste eggshell membrane-templated CuO-ZnO nanocomposites with enhanced adsorption,catalysis and antibacterial properties for water purification[J].Chemical Engineering Journal,2019,369:621-633.
[3] Pablos M V,Beltran E M,Jimenez M A,et al.Effect assessment of reclaimed water and carbamazepine exposure on the thyroid axis of X.laevis:apical and histological effects[J].The Science of the Total Environment,2020,723:138023.
[4] Liu W C,Shen X,Han Y Y,et al.Selective adsorption and removal of drug contaminants by using an extremely stable Cu(Ⅱ)-based 3D metal-organic framework[J].Chemosphere,2019,215:524-531.
[5] Seo Y S,Khan N A,Jhung S H.Adsorptive removal of methylchlorophenoxypropionic acid from water with a metal-organic framework[J].Chemical Engineering Journal,2015,270:22-27.
[6] Lv Z M,Fan Q H,Xie Y,et al.MOFs-derived magnetic chestnut shell-like hollow sphere NiO/Ni@C composites and their removal performance for arsenic(Ⅴ)[J].Chemical Engineering Journal,2019,362:413-421.
[7] Jamshidifard S,Koushkbaghi S,Hosseini S,et al.Incorporation of UiO-66-NH2 MOF into the PAN/chitosan nanofibers for adsorption and membrane filtration of Pb(Ⅱ),Cd(Ⅱ) and Cr(Ⅵ) ions from aqueous solutions[J].Journal of Hazardous Materials,2019,368:10-20.
[8] Moradi E,Rahimi R,Safarifard V.Porphyrinic zirconium-based MOF with exposed pyrrole Lewis base site as an efficient fluorescence sensing for Hg2+ ions,DMF small molecule,and adsorption of Hg2+ ions from water solution[J].Journal of Solid State Chemistry,2020,286:121277.
[9] Rani U A,Ng L Y,Ng C Y,et al.A review of carbon quantum dots and their applications in wastewater treatment[J].Advances in Colloid and Interface Science,2020,278:102124.
[10] Liu Y B,Zhang J,Liu F Q,et al.Ultra-rapid detoxification of Sb(Ⅲ) using a flow-through electro-fenton system[J].Chemosphere,2020,245:125604.
[11] Papagiannis I,Vezyraki P,Simos Y V,et al.Effects of secondary biological treatment plant effluent administration,as drinking water,to rats 'urogenital system in relation to cadmium and lead accumulation[J].Environmental science and Pollution Research International,2019,26:36434-36440.
[12] Xiao Y H,Xue Q Q,Zhu K R,et al.Enhanced performance of adsorptive removal of thiophene from model fuel over micro-mesoporous binderless ZSM-5 prepared by in situ crystallization[J].Energy & Fuels,2020,34:5623-5633.
[13] Song G R,Deng R Q,Yao Z,et al.Anthracite coal-based activated carbon for elemental Hg adsorption in simulated flue gas:preparation and evaluation[J].Fuel,2020,275:117921.
[14] Wang C,Luan J,Wu C.Metal-organic frameworks for aquatic arsenic removal[J].Water research,2019,158:370-382.
[15] Khan S A,Siddiqui M F,Khan T A,et al.Ultrasonic-assisted synthesis of polyacrylamide/bentonite hydrogel nanocomposite for the sequestration of lead and cadmium from aqueous phase:equilibrium,kinetics and thermodynamic studies[J].Ultrasonics Sonochemistry,2020,60:104761.
[16] Huang Y B,Liang J,Wang X S,et al.Multifunctional metal-organic framework catalysts:synergistic catalysis and tandem reactions[J].Chemical Society Reviews,2017,46:126-157.
[17] Joseph J,Jun B M,Jang M,et al.Removal of contaminants of emerging concern by metal-organic framework nanoadsorbents:a review[J].Chemical Engineering Journal,2019,369:928-946.
[18] Sharma V K,Feng M B.Water depollution using metal-organic frameworks-catalyzed advanced oxidation processes:a review[J].Journal of Hazardous Materials,2019,372:3-16.
[19] Kaur R,Kaur A,Umar A,et al.Metal organic framework (MOF) porous octahedral nanocrystals of Cu-BTC:synthesis,properties and enhanced adsorption properties[J].Materials Research Bulletin,2019,109:124-133.
[20] Liu Y F,Lin D Y,Yang W T,et al.In situ modification of ZIF-67 with multi-sulfonated dyes for great enhanced methylene blue adsorption via synergistic effect[J].Microporous and Mesoporous Materials,2020,303:110304.
[21] Kavak S,Kulak H,Polat H M,et al.Fast and selective adsorption of methylene blue from water using [BMIM][PF6]-incorporated UiO-66 and NH2-UiO-66[J].Crystal Growth & Design,2020,20(6):3590-3595.
[22] Chauhan M,Saini V K,Suthar S,et al.Removal of pharmaceuticals and personal care products (PPCPs) from water by adsorption on aluminum pillared clay[J].Journal of Porous Materials,2019,27(2):383-393.
[23] Elizalde-Velazquez A,Subbiah S,Anderson T A,et al.Sorption of three common nonsteroidal anti-inflammatory drugs (NSAIDs) to microplastics[J].The Science of the Total Environment,2020,715:136974.
[24] Kalcikova G,Alic B,Skalar T,et al.Wastewater treatment plant effluents as source of cosmetic polyethylene microbeads to freshwater[J].Chemosphere,2017,188:25-31.
[25] Yin J,Hu Y.Study on hair dyeing wastewater treatment by the union process of adsorption coagulation and potassium permanganate oxide[J].Applied Mechanics & Materials,2014,675-677:638-642.
[26] Karami A,Sabouni R,Ghommem M.Experimental investigation of competitive co-adsorption of naproxen and diclofenac from water by an aluminum-based metal-organic framework[J].Journal of Molecular Liquids,2020,305:112808.
[27] Gao Y X,Xia J,Liu D C,et al.Synthesis of mixed-linker Zr-MOFs for emerging contaminant adsorption and photodegradation under visible light[J].Chemical Engineering Journal,2019,378:122118.
[28] Zhao P,Liu N N,Jin C N,et al.UiO-66:an advanced platform for investigating the influence of functionalization in the adsorption removal of pharmaceutical waste[J].Inorganic Chemistry,2019,58(13):8787-8792.
[29] Yin Y,Shi M,Ren Y,et al.Wrinkle structure on multifunctional MOFs to facilitate PPCPs adsorption in wastewater[J].Chemical Engineering Journal,2020,387:124196.
[30] Pankajakshan A,Sinha M,Ojha A A,et al.Water-stable nanoscale zirconium-based metal-organic frameworks for the effective removal of glyphosate from aqueous media[J].ACS Omega,2018,3(7):7832-7839.
[31] Akpinar I,Drout R J,Islamoglu T,et al.Exploiting π-π interactions to design an efficient sorbent for atrazine removal from water[J].ACS Applied Materials & Interfaces,2019,11:6097-6103.
[32] Xiao X F,Deng Y Y,Xue J L,et al.Adsorption of chromium by functionalized metal organic frameworks from aqueous solution[J].Environmental Technology,2019,42(12):1930-1942.
[33] Cai J H,Wang X Y,Zhou Y,et al.Selective adsorption of arsenate and the reversible structure transformation of the mesoporous metal-organic framework MIL-100(Fe)[J].Physical Chemistry Chemical Physics:PCCP,2016,18(16):10864-10867.
[34] Atallah H,Mahmoud M E,Jelle A,et al.A highly stable indium based metal organic framework for efficient arsenic removal from water[J].Dalton Transactions,2018,47(3):799-806.
[35] Gu Y,Xie D H,Wang Y C,et al.Facile fabrication of composition-tunable Fe/Mg bimetal-organic frameworks for exceptional arsenate removal[J].Chemical Engineering Journal,2019,357:579-588.
[36] Zhang B L,Qiu W,Wang P P,et al.Mechanism study about the adsorption of Pb(Ⅱ) and Cd(Ⅱ) with iron trimesic metal-organic frameworks[J].Chemical Engineering Journal,2020,385:123507.
[37] Lv S W,Liu J M,Li C Y,et al.A novel and universal metal-organic frameworks sensing platform for selective detection and efficient removal of heavy metal ions[J].Chemical Engineering Journal,2019,375:122111.
[38] Liu Q,Li S S,Yu H H,et al.Covalently crosslinked zirconium-based metal-organic framework aerogel monolith with ultralow-density and highly efficient Pb(Ⅱ) removal[J].Journal of Colloid and Interface Science,2020,561:211-219.
