Fluoride Review
References used in the Review Article
الملفات المرفقة
- 1 (1-338.full.pdf - 793.72 KB)
- 2 (2-2011 International Conference on Electronics and Optoelectroni - 509.27 KB)
- 3 (3-4893835.pdf - 1.98 MB)
- 4 (4-A high-capacity aluminum hydroxide-based.pdf - 612.93 KB)
- 5 (5-A novel high efficient Mgadsorbent for fluoride removalkinetic - 875.48 KB)
- 6 (6-Accepted Manuscrip-a.pdf - 786.7 KB)
- 7 (7-Accepted Manuscript.pdf - 453.12 KB)
- 8 (8-Adsorption (2010) 16 295–303.pdf - 433.8 KB)
- 9 (9-Adsorption kinetics of fluoride on low cost materials.pdf - 165.99 KB)
- 10 (10-ADSORPTION OF FLUORIDE BY CLAYS.pdf - 119.28 KB)
- 11 (11-Anal. Methods, 2015,7, 8304.pdf - 1.34 MB)
- 12 (12-app2012.pdf - 1.43 MB)
- 13 (13-Appl Water Sci.pdf - 0 B)
- 14 (14-Application of Bentonite Clay for Human Use.pdf - 107.15 KB)
- 15 (15-Application of response surface mehodology and semi-mechanist - 2.61 MB)
- 16 (16-Applied Clay Science 40 (2008) 54–62.pdf - 799.35 KB)
- 17 (17-Applied Clay Science 114 (2015) 340–348.pdf - 453.75 KB)
- 18 (18-Applied Clay Science 2013.pdf - 1.25 MB)
- 19 (19-Applied ClayScience 114 (2015) 340–348.pdf - 0 B)
- 20 (20-Applied Geochemistry 27 (2012) 1179–1188.pdf - 736.79 KB)
- 21 (21-applsci-06-00277.pdf - 3.83 MB)
- 22 (22-Arab J Sci Eng.pdf - 1.36 MB)
- 23 (23-Arabian Journal of Chemistry (2016) 9, 815–824.pdf - 1.08 MB)
- 24 (24-BC.pdf - 128.91 KB)
- 25 (25-Bull Environ Contam Toxicol (2008) 81 508–512.pdf - 243.65 KB)
- 26 (26-cej.pdf - 1.52 MB)
- 27 (27-ch 10.pdf - 397.95 KB)
- 28 (28-Chapter 2.pdf - 989.79 KB)
- 29 (29-Chapter 4.pdf - 644.26 KB)
- 30 (30-CHAPTER 13.pdf - 300.78 KB)
- 31 (31-Characterisation of smectite-rich clay soil Implication for g - 412.86 KB)
- 32 (32-Characteristics of fluoride adsorption onto aluminium(III) an - 1.13 MB)
- 33 (33-Chem Soc Rev.pdf - 14.48 MB)
- 34 (34-Chemical Engineering Journal 223 (2013) 183–191.pdf - 1.12 MB)
- 35 (35-Chemical Engineering Journal 248 (2014) 430–439.pdf - 1.95 MB)
- 36 (36-Chemical Engineering Journal 250 (2014) 423–430.pdf - 1.18 MB)
- 37 (37-Chemistry Central Journal 2013, 751.pdf - 435.49 KB)
- 38 (38-Chromatographia (2016) 791395–1396.pdf - 163.33 KB)
- 39 (39-CP.pdf - 1.12 MB)
- 40 (40-csa.pdf - 1.15 MB)
- 41 (41-csa2013.pdf - 2.72 MB)
- 42 (42-Curr Pollution Rep.pdf - 528.47 KB)
- 43 (43-Defluoridation of groundwater using Fe3+-modified bentonite c - 825.18 KB)
- 44 (44-Defluoridation of groundwater using mixed Mukondeni clay soil - 505.02 KB)
- 45 (45-Defluoridation of groundwater using.pdf - 1.24 MB)
- 46 (46-Defluoridation of the Algerian north Sahara waters.pdf - 290.35 KB)
- 47 (47-Defluoridation studies with synthesized.pdf - 3.43 MB)
- 48 (48-Desalination 201 (2006) 267–276.pdf - 219.24 KB)
- 49 (49-Desalination 206 (2007) 238–244.pdf - 168.25 KB)
- 50 (50-Desalination 249 (2009) 687–693.pdf - 391.38 KB)
- 51 (51-Desalination 250 (2010) 408–413.pdf - 582.2 KB)
- 52 (52-Desalination 277 (2011) 121–127.pdf - 1.04 MB)
- 53 (53-Desalination and Water Treatment 2.pdf - 897.3 KB)
- 54 (54-Desalination2011.pdf - 1.25 MB)
- 55 (55-Dessalegne_et_al-2017-Journal_of_Chemical_Technology_and_Biot - 1.89 MB)
- 56 (56-dwt Volume 57, 2016 - Issue 56.pdf - 1.58 MB)
- 57 (57-Enhanced defluoridation using reusable strong acid cation exc - 2.36 MB)
- 58 (58-Environ Chem Lett (2017) 15125–149.pdf - 1.24 MB)
- 59 (59-Environ Earth Sci (2014) 72 2033–204.pdf - 630.17 KB)
- 60 (60-Environ Earth Sci (2016) 75 401.pdf - 1.64 MB)
- 61 (61-Environ Earth Sci (2016) 75401.pdf - 1.64 MB)
- 62 (62-Environ Sci Pollut Res (2016) 2314676–14685.pdf - 427.46 KB)
- 63 (63-Environmental Technology, 2014.pdf - 1.06 MB)
- 64 (64-Environmental.pdf - 2.89 MB)
- 65 (65-Equilibrium studies for the sorption of chromium and nickel f - 213.15 KB)
- 66 (66-Evaluation of Aluminum Hydroxide-Amended Zeolites in Fluoride - 609.47 KB)
- 67 (67-Factors Governing the Performance of Bauxite for Fluoride Rem - 1.14 MB)
- 68 (68-fl and fl.pdf - 1.39 MB)
- 69 (69-Fluoride.pdf - 48.77 KB)
- 70 (70-fluoride and its removal.pdf - 112.93 KB)
- 71 (71-Fluoride Health Information Summary.pdf - 63.8 KB)
- 72 (72-FLUORIDE IN DRINKING WATER.pdf - 4.46 MB)
- 73 (73-Fluoride in Drinking-water.pdf - 134.58 KB)
- 74 (74-Fluoride removal by Al, Ti, and Fe hydroxides and coexisting - 611.12 KB)
- 75 (75-Fluoride removal from liquid phase by Fe-Al-La trimetal hydro - 1.55 MB)
- 76 (76-fluoride removal using crushed concrete in a fixed-bed column - 2.61 MB)
- 77 (77-Fluoride.pdf - 103.33 KB)
- 78 (78-Fluorine in Context.pdf - 397.7 KB)
- 79 (79-Fluorine Sorption by Aluminosilicate-Modified Diatomite.pdf - 574.65 KB)
- 80 (80-Front. Environ. Sci. Eng. 2016, 10(3)467–476.pdf - 576.74 KB)
- 81 (81-Front. Environ. Sci. Engin. China 2011, 5(2) 212–226.pdf - 839.1 KB)
- 82 (82-Function and Effects.pdf - 563.08 KB)
- 83 (83-Geoscience Frontiers.pdf - 1.52 MB)
- 84 (84-IJCT.pdf - 106.89 KB)
- 85 (85-J. Mater. Chem. A, 2014,2, 808.pdf - 687.88 KB)
- 86 (86-j.pdf - 515.07 KB)
- 87 (87-JCIS.pdf - 1.85 MB)
- 88 (88-jfc.pdf - 1.56 MB)
- 89 (89-jh2009.pdf - 626.87 KB)
- 90 (90-JHM.pdf - 3.35 MB)
- 91 (91-jhm2011.pdf - 726.33 KB)
- 92 (92-iec.pdf - 353.97 KB)
- 93 (93-JML.pdf - 616.4 KB)
- 94 (94-Journal ece 2017.pdf - 1.94 MB)
- 95 (95-Journal JournalJournal.pdf - 1.19 MB)
- 96 (96-Journal of Cleaner Production 151 (2017) 303e318.pdf - 4.67 MB)
- 97 (97-Journal of Colloid and Interface Science 348 (2010) 579–584.p - 640.79 KB)
- 98 (98-Journal of Colloid and Interface Science 417 (2014) 356–368.p - 1.89 MB)
- 99 (99-Journal of Colloid and Interface Science 464 (2016) 238–245.p - 1.85 MB)
- 100 (100-Journal of Colloid and Interface Science 483 (2016) 295–306. - 2.31 MB)
- 101 (101-Journal of Colloid and Interface Science.pdf - 1.24 MB)
- 102 (102-Journal of Contaminant Hydrology177–178 (2015) 136–147.pdf - 1.08 MB)
- 103 (103-Journal of Environmental Chemical Engineering 4 (2016) 2417– - 2.03 MB)
- 104 (104-Journal of Environmental Management 91 (2009) 67–77.pdf - 242.61 KB)
- 105 (105-Journal of Environmental Management 196 (2017) 72.pdf - 1009.85 KB)
- 106 (106-Journal of Environmental Sciences 2013, 25(5) 993–1000.pdf - 184.46 KB)
- 107 (107-Journal of Fluorine Chemistry 130 (2009) 749–754.pdf - 409.79 KB)
- 108 (108-Journal of Fluorine Chemistry 131 (2010) 635–641.pdf - 282.48 KB)
- 109 (109-Journal of Fluorine Chemistry 132 (2011) 231–240.pdf - 381.25 KB)
- 110 (110-Journal of Fluorine Chemistry 148 (2013) 6–13.pdf - 1.45 MB)
- 111 (111-Journal of Fluorine Chemistry 186 (2016) 115–124.pdf - 2.27 MB)
- 112 (112-Journal of Hazardous Materials 153 (2008) 164–172.pdf - 450.37 KB)
- 113 (113-Journal of Hazardous Materials 167 (2009) 873–878.pdf - 571.96 KB)
- 114 (114-Journal of Hazardous Materials 180 (2010) 122–130.pdf - 1.01 MB)
- 115 (115-Journal of Hazardous Materials 213– 214 (2012) 100– 108.pdf - 890.43 KB)
- 116 (116-Journal of Hazardous Materials 233– 234 (2012) 194– 199.pdf - 850.51 KB)
- 117 (117-Journal of Hazardous Materials 248– 249 (2013) 1– 19.pdf - 685.44 KB)
- 118 (118-Journal of Molecular Liquids 215 (2016) 565–595.pdf - 2.15 MB)
- 119 (119-journal of taiwan.pdf - 2.24 MB)
- 120 (120-Journal of the Taiwan Institute of Chemical Engineers 45 (20 - 1.65 MB)
- 121 (121-Journal.pdf - 2.03 MB)
- 122 (122-Korean J. Chem. Eng., 33(2), 720-725 (2016).pdf - 1.25 MB)
- 123 (123-Korean J. Chem. Eng., 34(1), 179-188 (2017).pdf - 0 B)
- 124 (124-Korean J. Chem. Eng., 34(1), 179-188 (2017.pdf - 657.35 KB)
- 125 (125-Manganese-oxide-coated alumina.pdf - 336.8 KB)
- 126 (126-materials-07-06317.pdf - 907.81 KB)
- 127 (127-Mechanistic study of simultaneous arsenic and fluoride remov - 3.61 MB)
- 128 (128-Microporous and Mesoporous Materials 127 (2010) 152–156.pdf - 461.54 KB)
- 129 (129-Pedosphere 19(1)60–70, 2009.pdf - 222.45 KB)
- 130 (130-Powder Technology268 (2014) 306–315.pdf - 2.13 MB)
- 131 (131-Preparation and Characterization of La(III)-Al(III) Co-loade - 982.13 KB)
- 132 (132-Procedia Earth and Planetary Science 17 ( 2017 ) 161 – 1 - 359.26 KB)
- 133 (133-Process.pdf - 814.44 KB)
- 134 (134-R Chemical Engineering Journal 171 (2011) 811– 840.pdf - 782.96 KB)
- 135 (135-Removal of fluoride from aqueous solution by natural and aci - 978.31 KB)
- 136 (136-Removal of Fluoride from Aqueous Solution by.pdf - 1.08 MB)
- 138 (138-Removal of toxic fluoride ion from water using low cost cera - 1.3 MB)
- 139 (139-Removal of toxic fluoride ion from water using low cost ceram - 0 B)
- 140 (140-Rev Environ Sci Biotechnol (2015) 14195–210.pdf - 653.94 KB)
- 141 (141-RSC Adv., 2015,5, 6771.pdf - 2.86 MB)
- 142 (142-RSC Adv., 2015,5, 85395.pdf - 947.98 KB)
- 143 (143-RSC Adv., 2015,5, 105889.pdf - 2.53 MB)
- 144 (144-RSC Adv., 2016,6, 43814.pdf - 867.54 KB)
- 145 (145-RSC Adv., 2016,6, 48610.pdf - 1.33 MB)
- 146 (146-SCT.pdf - 1.17 MB)
- 147 (147-Separation and Purification Technology 120 (2013) 224–229.pdf - 750.45 KB)
- 148 (148-Separation and Purification Technology.pdf - 816.26 KB)
- 149 (149-Separation Science and Technology.pdf - 833.04 KB)
- 150 (150-spt.pdf - 412.4 KB)
- 151 (151-Studies on the defluoridation of water using.pdf - 549.28 KB)
- 152 (152-Surfaces.pdf - 3.3 MB)
- 153 (153-Synthesis and Adsorption Properties of Ca-Al Layered Double. - 948.17 KB)
- 154 (154-The Hidden Poison in the National Organic Standards.pdf - 164.68 KB)
- 155 (155-The_Impact_of_Fluoride_9-12.pdf - 719.15 KB)
- 156 (156-Thermodynamics and kinetics study of defluoridation using Ca - 657.35 KB)
- 157 (157-Toxicological & Environmental Chemistry.pdf - 804.52 KB)
- 158 (158-uestions and Answers on Fluorid.pdf - 110.71 KB)
- 159 (159-untitled csa.pdf - 1007.46 KB)
- 160 (160-untitled n.pdf - 1.98 MB)
- 161 (161-untitled.pdf - 1.29 MB)
- 162 (162-Use of pyrophyllite clay for fluoride removal.pdf - 672.3 KB)
- 163 (163-Value Adding Red Mud Waste High Performance Iron Oxide Adsor - 1.01 MB)
- 164 (164-Water Air Soil Pollut (2012) 2231101–1114.pdf - 704.81 KB)
- 165 (165-Water Air Soil Pollut (2012) 2236133–6155.pdf - 476.72 KB)
- 166 (166-Water Air Soil Pollut (2016) 227 454.pdf - 982.13 KB)
- 167 (167-Water Air Soil Pollut (2016) 227381.pdf - 0 B)
- 168 (168-Water Air Soil Pollut (2017) 228 23.pdf - 948.17 KB)
- 169 (169-Water defluoridation_Al2O3.pdf - 581.87 KB)
- 170 (170-WATER FLUORIDATION.pdf - 1.29 MB)
- 171 (171-Water Fluoridation and the Environment.pdf - 147.07 KB)
- 172 (172-Water Fluoridation.pdf - 654.56 KB)
- 173 (173-WATER RESEARCH 41 (2007) 1534– 1542.pdf - 409.64 KB)
- 174 (174-4893835.pdf - 1.98 MB)
- 175 (175-6254683.pdf - 2.65 MB)
- 176 (176-app surface sci 2017.pdf - 2.47 MB)
- 177 (177-calcium aluminate mat.pdf - 1.34 MB)
- 178 (178-Fluoride and iodine enrichment in groundwater of North China - 2.06 MB)
- 179 (179-International Journal of Mineral Processing.pdf - 706.21 KB)
- 180 (180-Mechanistic_Consideration_of_Fluoride_Removal_Usin.pdf - 359.1 KB)
- 181 (181-Prevalence of fluorosis in the fluoride enriched groundwater - 3.16 MB)
- 182 (182-s11270-016-3160-0.pdf - 948.17 KB)
- 183 (183-s11814-016-0217-0.pdf - 657.35 KB)
- 184 (184-s11814-016-0274-4.pdf - 551.9 KB)
- 185 (185-s13201-017-0608-3.pdf - 1.98 MB)
- 186 (186-s40726-017-0054-8.pdf - 518.9 KB)
- 187 (187-Significance of FeZr-modified natural zeolite networks on fluor - 1.2 MB)
- 188 (188-Stabilization of arsenic and fluoride bearing spent adsorben - 1.37 MB)
- 189 (189-Studies on the defluoridation of water using.pdf - 549.28 KB)
- 190 (190-Surface Engineering and Applied Electrochemistry, 2016, Vol. - 574.65 KB)
- 191 (191-timek1.pdf - 716.68 KB)
- 192 (192-timek2.pdf - 1.91 MB)
- 193 (193-timek3.pdf - 1.3 MB)
- 194 (194-timek4.pdf - 2.3 MB)
- 195 (195-timek5.pdf - 1.4 MB)
- 196 (196-timek6.pdf - 364.32 KB)
- 197 (197-timek7.pdf - 375.71 KB)
- 198 (198-timek8.pdf - 1.1 MB)
- 199 (199-timek9.pdf - 834.14 KB)
- 200 (200- 4893835.pdf - 1.98 MB)
- 201 (201-Assessing changes in the physico.pdf - 1.4 MB)
- 202 (202-Journal of Cleaner Production 151 (2017) 303e318.pdf - 4.67 MB)
- 203 (203-ournal of taiwan.pdf - 1.47 MB)
- 204 (204-Applied Geochemistry 27 (2012) 1179–1188.pdf - 736.79 KB)
- 205 (205-Mechanism of fluoride removal.pdf - 774.41 KB)
- 206 (206-Stabilization of arsenic and.pdf - 1.37 MB)
- 207 (207-timek10.pdf - 1.24 MB)
- 208 (208-timek11.pdf - 558.82 KB)
- 209 (209-timek12.pdf - 1.01 MB)
- 210 (210-timek13.pdf - 1.87 MB)
- 211 (211-timek14.pdf - 1.07 MB)
- 212 (212-timek15.pdf - 2.82 MB)
- 213 (213-timek16.pdf - 1.48 MB)
- 214 (214-timek17.pdf - 706.94 KB)
- 215 (215-timek18.pdf - 1.52 MB)
- 216 (216-timek19.pdf - 538.57 KB)
- 217 (217-timek20.pdf - 1.96 MB)
- 218 (218-timek21.pdf - 257.22 KB)
- 219 (219-timek22.pdf - 995.88 KB)
- 220 (220-timek23.pdf - 648.52 KB)
- 221 (221-timek24.pdf - 843.34 KB)
- 222 (222-SA-3.pdf - 241.25 KB)
- 223 (223-SA-5-Rapport 2 - Fluoride online.pdf - 1.04 MB)
- 224 (224-SA-4.pdf - 958.96 KB)
- 225 (225-SA-6-Fluoride.pdf - 82.81 KB)
- 226 (226-SA-7-16_chapter 9.pdf - 2.08 MB)
- 227 (227-SA-8-nutrientschap14.pdf - 163.98 KB)
- 228 (228-SA-9-7253_Fluoride_Facts.pdf - 68.36 KB)
- 229 (229-SA-10- F in Surface water.pdf - 327.86 KB)
- 230 (230-SA-12.pdf - 2.28 MB)
- 231 (231-SA-13-fluoride in drinking water.pdf - 134.58 KB)
- 232 (232-sources of Fluoride texicity.pdf - 241.25 KB)
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