Lanthanum-based adsorbents for phosphate reutilization: Interference factors, adsorbent regeneration, and research gaps

[1]  Haixia Wu,et al.  Insight into simultaneous selective removal of nitrogen and phosphorus species by lanthanum-modified porous polymer: Performance, mechanism and application , 2021, Chemical Engineering Journal.

[2]  Deyi Wu,et al.  Coupled influence of pH and dissolved organic carbon on the immobilization of phosphorus by lanthanum-modified zeolite. , 2021, Chemosphere.

[3]  Qingrui Zhang,et al.  Selective adsorption of phosphate in water using lanthanum-based nanomaterials: A critical review , 2021 .

[4]  Bao-Cheng Huang,et al.  Phosphorus removal from diluted wastewaters using a La/C nanocomposite-doped membrane with adsorption-filtration dual functions , 2021 .

[5]  B. Young,et al.  Toward a decision support framework for sustainable phosphorus management: A case study of China , 2021 .

[6]  S. Asaoka,et al.  Adsorption of phosphate onto lanthanum-doped coal fly ash-Blast furnace cement composite. , 2020, Journal of hazardous materials.

[7]  Huaming Yang,et al.  Lanthanum compounds-modified rectorite composites for highly efficient phosphate removal from wastewater , 2020 .

[8]  B. Gao,et al.  Highly efficient removal of phosphate from aqueous media by pomegranate peel co-doping with ferric chloride and lanthanum hydroxide nanoparticles , 2020 .

[9]  J. Chen,et al.  Magnetic Fe3O4@MgAl-LDH@La(OH)3 composites with a hierarchical core-shell structure for phosphate removal from wastewater and inhibition of labile sedimentary phosphorus release. , 2020, Chemosphere.

[10]  Jacob L. Jones,et al.  Emerging lanthanum (III)-containing materials for phosphate removal from water: A review towards future developments. , 2020, Environment international.

[11]  I. Lo,et al.  Phosphate removal from river water using a highly efficient magnetically recyclable Fe3O4/La(OH)3 nanocomposite. , 2020, Chemosphere.

[12]  Guangshan Zhang,et al.  One-pot hydrothermal synthesis of NaLa(CO3)2 decorated magnetic biochar for efficient phosphate removal from water: Kinetics, isotherms, thermodynamics, mechanisms and reusability exploration , 2020 .

[13]  Yongzhen Peng,et al.  Adsorption removal and reuse of phosphate from wastewater using a novel adsorbent of lanthanum-modified platanus biochar , 2020 .

[14]  Shoufeng Tang,et al.  Persulfate oxidation for alternative sludge treatment and nutrient recovery: An assessment of technical and economic feasibility. , 2020, Journal of environmental management.

[15]  K. Ooi,et al.  Phosphorus removal from model wastewater using lanthanum hydroxide microcapsules with poly(vinyl chloride) shells , 2020 .

[16]  Xin Guo,et al.  Phosphate sequestration by magnetic La-impregnated bentonite granules: A combined experimental and DFT study. , 2020, The Science of the total environment.

[17]  Deyi Wu,et al.  Interactions of phosphate and dissolved organic carbon with lanthanum modified bentonite: Implications for the inactivation of phosphorus in lakes. , 2020, Water research.

[18]  Xiaoling Hu,et al.  Novel talc encapsulated lanthanum alginate hydrogel for efficient phosphate adsorption and fixation. , 2020, Chemosphere.

[19]  Rabin Bhattarai,et al.  Green synthesis of ultrapure La(OH)3 nanoparticles by one-step method through spark ablation and electrospinning and its application to phosphate removal , 2020 .

[20]  Wei Yan,et al.  MgFe2O4-biochar based lanthanum alginate beads for advanced phosphate removal , 2020 .

[21]  Zhiwei Zhao,et al.  Remarkable phosphate removal and recovery from wastewater by magnetically recyclable La2O2CO3/γ-Fe2O3 nanocomposites. , 2020, Journal of hazardous materials.

[22]  Sichao Lou,et al.  Fast and efficient phosphate removal on lanthanum-chitosan composite synthesized by controlling the amount of cross-linking agent. , 2020, International journal of biological macromolecules.

[23]  Deyi Wu,et al.  Competitive adsorption of phosphate and dissolved organic carbon on lanthanum modified zeolite. , 2020, Journal of colloid and interface science.

[24]  S. Vigneshwaran,et al.  Adsorptive performance of lanthanum encapsulated biopolymer chitosan-kaolin clay hybrid composite for the recovery of nitrate and phosphate from water. , 2020, International journal of biological macromolecules.

[25]  Tingting Wu,et al.  Magnetic porous NiLa-Layered double oxides (LDOs) with improved phosphate adsorption and antibacterial activity for treatment of secondary effluent. , 2020, Water Research.

[26]  Ning Li,et al.  Needle-like Mg-La bimetal oxide nanocomposites derived from periclase and lanthanum for cost-effective phosphate and fluoride removal: Characterization, performance and mechanism , 2020 .

[27]  M. Lürling,et al.  Lanthanum modified bentonite behaviour and efficiency in adsorbing phosphate in saline waters. , 2020, Chemosphere.

[28]  Haiming Huang,et al.  Investigation into lanthanum-coated biochar obtained from urban dewatered sewage sludge for enhanced phosphate adsorption. , 2020, The Science of the total environment.

[29]  Hong-xiang Ou,et al.  Construction of lanthanum modified MOFs graphene oxide composite membrane for high selective phosphorus recovery and water purification. , 2020, Journal of colloid and interface science.

[30]  Sui Zhang,et al.  Hydrothermally synthesized lanthanum carbonate nanorod for adsorption of phosphorus: Material synthesis and optimization, and demonstration of excellent performance , 2020 .

[31]  Rabin Bhattarai,et al.  PVA/PEI crosslinked electrospun nanofibers with embedded La(OH)3 nanorod for selective adsorption of high flux low concentration phosphorus. , 2020, Journal of hazardous materials.

[32]  J. Chen,et al.  An innovative lanthanum carbonate grafted microfibrous composite for phosphate adsorption in wastewater. , 2019, Journal of hazardous materials.

[33]  Yongsheng Yan,et al.  Free-standing large-mesoporous silica films decorated with lanthanum as new adsorbents for efficient removal of phosphate , 2019 .

[34]  B. Pan,et al.  Selective Phosphate Removal from Water and Wastewater using Sorption: Process Fundamentals and Removal Mechanisms. , 2019, Environmental science & technology.

[35]  M. Lürling,et al.  Lanthanum in Water, Sediment, Macrophytes and chironomid larvae following application of Lanthanum modified bentonite to lake Rauwbraken (The Netherlands). , 2019, The Science of the total environment.

[36]  Qiang He,et al.  Novel lanthanum doped biochars derived from lignocellulosic wastes for efficient phosphate removal and regeneration. , 2019, Bioresource technology.

[37]  J. Tardio,et al.  Studies on the adsorption of phosphate using lanthanide functionalized KIT- 6 , 2019, Microporous and Mesoporous Materials.

[38]  Ruochen Yang,et al.  Synchronous phosphate and fluoride removal from water by 3D rice-like lanthanum-doped La@MgAl nanocomposites , 2019, Chemical Engineering Journal.

[39]  J. Qu,et al.  Activation of Lattice Oxygen in LaFe (Oxy)Hydroxides for Efficient Phosphorus Removal. , 2019, Environmental science & technology.

[40]  Baoyou Shi,et al.  NaLa(CO3)2 hybridized with Fe3O4 for efficient phosphate removal: Synthesis and adsorption mechanistic study. , 2019, Water research.

[41]  Jiwon Seo,et al.  La-modified ZSM-5 zeolite beads for enhancement in removal and recovery of phosphate , 2019, Microporous and Mesoporous Materials.

[42]  M. V. van Loosdrecht,et al.  Adsorption as a technology to achieve ultra-low concentrations of phosphate: Research gaps and economic analysis , 2019, Water research X.

[43]  Yuan Chen,et al.  La(OH)3 loaded magnetic mesoporous nanospheres with highly efficient phosphate removal properties and superior pH stability , 2019, Chemical Engineering Journal.

[44]  B. Gao,et al.  Insights into the phosphate adsorption behavior onto 3D self-assembled cellulose/graphene hybrid nanomaterials embedded with bimetallic hydroxides. , 2019, The Science of the total environment.

[45]  Xing Wu,et al.  Ultra-high capacity of lanthanum-doped UiO-66 for phosphate capture: Unusual doping of lanthanum by the reduction of coordination number , 2019, Chemical Engineering Journal.

[46]  Xiaoming Li,et al.  Hydrated lanthanum oxide-modified diatomite as highly efficient adsorbent for low-concentration phosphate removal from secondary effluents. , 2019, Journal of environmental management.

[47]  Pingan Song,et al.  Lignin-Derived Porous Carbon Loaded with La(OH)3 Nanorods for Highly Efficient Removal of Phosphate , 2018, ACS Sustainable Chemistry & Engineering.

[48]  Jing Liu,et al.  Superior adsorption of phosphate by ferrihydrite-coated and lanthanum-decorated magnetite. , 2018, Journal of colloid and interface science.

[49]  Ning Li,et al.  Highly-effective phosphate removal from aqueous solutions by calcined nano-porous palygorskite matrix with embedded lanthanum hydroxide , 2018, Applied Clay Science.

[50]  Xuan Zhang,et al.  In situ formation of La(OH)3-poly(vinylidene fluoride) composite filtration membrane with superior phosphate removal properties , 2018, Chemical Engineering Journal.

[51]  M. V. van Loosdrecht,et al.  Understanding and improving the reusability of phosphate adsorbents for wastewater effluent polishing. , 2018, Water research.

[52]  Xinze Wang,et al.  Review of metal (hydr)oxide and other adsorptive materials for phosphate removal from water , 2018, Journal of Environmental Chemical Engineering.

[53]  Liying Wu,et al.  Simultaneous and efficient removal of fluoride and phosphate by Fe-La composite: Adsorption kinetics and mechanism , 2018, Journal of Alloys and Compounds.

[54]  Deyi Wu,et al.  Removal of phosphate from water by amine-functionalized copper ferrite chelated with La(III). , 2018, The Science of the total environment.

[55]  I. Lo,et al.  Lanthanum oxide nanorods for enhanced phosphate removal from sewage: A response surface methodology study. , 2018, Chemosphere.

[56]  S. Meenakshi,et al.  Lanthanum (III) encapsulated chitosan-montmorillonite composite for the adsorptive removal of phosphate ions from aqueous solution. , 2018, International journal of biological macromolecules.

[57]  H. Lin,et al.  Preferable adsorption of phosphate using lanthanum-incorporated porous zeolite: Characteristics and mechanism , 2017 .

[58]  I. Lo,et al.  Highly efficient and selective phosphate removal from wastewater by magnetically recoverable La(OH)3/Fe3O4 nanocomposites. , 2017, Water research.

[59]  Huaili Zheng,et al.  La3+/La(OH)3 loaded magnetic cationic hydrogel composites for phosphate removal: Effect of lanthanum species and mechanistic study. , 2017, Water research.

[60]  H. Jensen,et al.  The influence of lake water alkalinity and humic substances on particle dispersion and lanthanum desorption from a lanthanum modified bentonite. , 2017, Water research.

[61]  M. Lürling,et al.  Bio-accumulation of lanthanum from lanthanum modified bentonite treatments in lake restoration. , 2017, Environmental pollution.

[62]  Xintong Zhang,et al.  Robust phosphate capture over inorganic adsorbents derived from lanthanum metal organic frameworks , 2017 .

[63]  M. Lürling,et al.  Effects of combined flocculant - Lanthanum modified bentonite treatment on aquatic macroinvertebrate fauna. , 2017, Water research.

[64]  H. Sereshti,et al.  Enhanced removal of phosphate and nitrate ions from aqueous media using nanosized lanthanum hydrous doped on magnetic graphene nanocomposite. , 2017, Journal of environmental management.

[65]  K. Sasaki,et al.  Selective removal of phosphate using La-porous carbon composites from aqueous solutions: Batch and column studies , 2017 .

[66]  Jianghua Yu,et al.  Preferable phosphate sequestration by nano-La(III) (hydr)oxides modified wheat straw with excellent properties in regeneration , 2017 .

[67]  Gang Pan,et al.  Enhanced Phosphorus Locking by Novel Lanthanum/Aluminum-Hydroxide Composite: Implications for Eutrophication Control. , 2017, Environmental science & technology.

[68]  G. Sextl,et al.  Pilot-scale removal and recovery of dissolved phosphate from secondary wastewater effluents with reusable ZnFeZr adsorbent @ Fe3O4/SiO2 particles with magnetic harvesting. , 2017, Water research.

[69]  H. Ngo,et al.  Insight into chemical phosphate recovery from municipal wastewater. , 2017, The Science of the total environment.

[70]  Xiawei Liu,et al.  Adsorption of phosphate in water using one-step synthesized zirconium-loaded reduced graphene oxide , 2016, Scientific Reports.

[71]  M. Awasthi,et al.  Recovery of phosphate from aqueous solution by magnesium oxide decorated magnetic biochar and its potential as phosphate-based fertilizer substitute. , 2016, Bioresource technology.

[72]  Grant Douglas,et al.  Eutrophication management in surface waters using lanthanum modified bentonite: A review. , 2016, Water research.

[73]  D. Lundberg,et al.  Influence of dissolved organic carbon on the efficiency of P sequestration by a lanthanum modified clay. , 2016, Water research.

[74]  B. Pan,et al.  Enhanced Phosphate Removal by Nanosized Hydrated La(III) Oxide Confined in Cross-linked Polystyrene Networks. , 2016, Environmental science & technology.

[75]  Mingli Chen,et al.  Selective Adsorption and Efficient Removal of Phosphate from Aqueous Medium with Graphene–Lanthanum Composite , 2016 .

[76]  Ce Wang,et al.  Highly Efficient Phosphate Scavenger Based on Well-Dispersed La(OH)3 Nanorods in Polyacrylonitrile Nanofibers for Nutrient-Starvation Antibacteria. , 2015, ACS nano.

[77]  Deyi Wu,et al.  Removal and recovery of phosphate from water by activated aluminum oxide and lanthanum oxide , 2015 .

[78]  Zhen-Jia Zhang,et al.  Removal and recovery of phosphate from water by lanthanum hydroxide materials , 2014 .

[79]  M. Shenashen,et al.  Preparing of novel fibrous ligand exchange adsorbent for rapid column-mode trace phosphate removal from water , 2014 .

[80]  Deyi Wu,et al.  Green synthesis of a novel hybrid sorbent of zeolite/lanthanum hydroxide and its application in the removal and recovery of phosphate from water. , 2014, Journal of colloid and interface science.

[81]  M. Lürling,et al.  Humic substances interfere with phosphate removal by Lanthanum modified clay in controlling eutrophication. , 2014, Water research.

[82]  B. Spears,et al.  Lake responses following lanthanum-modified bentonite clay (Phoslock®) application: an analysis of water column lanthanum data from 16 case study lakes. , 2013, Water research.

[83]  H. Jensen,et al.  Phosphate adsorption by lanthanum modified bentonite clay in fresh and brackish water. , 2013, Water research.

[84]  M. Tamada,et al.  Enhanced trace phosphate removal from water by zirconium(IV) loaded fibrous adsorbent. , 2011, Water research.

[85]  K. Johannesson,et al.  Ligand extraction of rare earth elements from aquifer sediments: Implications for rare earth element complexation with organic matter in natural waters , 2010 .

[86]  K. Y. Foo,et al.  Insights into the modeling of adsorption isotherm systems , 2010 .

[87]  Natasha Gilbert,et al.  Environment: The disappearing nutrient , 2009, Nature.

[88]  W. Dodds,et al.  Eutrophication of U.S. freshwaters: analysis of potential economic damages. , 2009, Environmental science & technology.

[89]  G. Douglas,et al.  Application of PhoslockTM, an innovative phosphorus binding clay, to two Western Australian waterways: preliminary findings , 2003, Hydrobiologia.

[90]  Douglas G.B,et al.  A Novel Technique for Reducing Bioavailable Phosphorus in Water and Sediments , 2004 .

[91]  B. Derjaguin A theory of interaction of particles in presence of electric double layers and the stability of lyophobe colloids and disperse systems , 1993 .