Abstract
A composite polymer, hydroxyapatite/poly(acrylamide-acrylic acid), was synthesized by gamma-induced polymerization. The factors affecting the sorption process were evaluated. The removal increased with time and achieved equilibrium after 1 h for all initial concentration ranges (10–50 mg/L). The highest removal of Sr(II) was achieved using 50 mg/L at pH 6. The sorption process was found to follow a pseudo-first-order mechanism. The equilibrium data are best described by the Langmuir model, with a monolayer capacity of 53.59 mg/g. The values of thermodynamic parameters indicate that the sorption process is endothermic (ΔH > 0), increases randomness (ΔS > 0) and is spontaneous (ΔG < 0). The results imply that the composite could be used as a promising low-cost material for the removal of radionuclides from radioactive waste.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Change history
21 December 2019
The original publication of this paper contains a mistake.
21 December 2019
The original publication of this paper contains a mistake.
References
Abdel Rahman RO, Abdel Moamen OA, Abdelmonem N, Ismail IM (2019) Optimizing the removal of strontium and cesium ions from binary solutions on magnetic nano-zeolite using response surface methodology (RSM) and artificial neural network (ANN). Environ Res 173:397–410
Al-Ali AAS, Kassab-Bashi TY (2015) Fourier transform infra red (FTIR) spectroscopy of new copolymers of acrylic resin denture base materials. Int J Enhanced Res Sci Technol Eng 4(4):172–180
Alhareb AO, Akil HBM, Ahmad ZAB (2015) Poly(methyl methacrylate) denture base composites enhancement by variouscombinations of nitrilebutadiene rubber/treatedceramic fillers. J Thermoplast Compos Mater:1–22
Andrews A (2006) Radioactive waste streams: An overview of waste classification for disposal.congressional research services report
Basargin NN, Demin EV, Anikin VY, Kometiani IB (2011) Strontium(II) Sorption by complexing o_Hydroxy_azo_o'_hydroxy functionalized polystyrene polymer sorbents. Russ J Inorg Chem 56:2019–2023
Bascetin E, Atun G (2006) Adsorption behavior of strontium on binary mineral mixtures of Montmorillonite and Kaolinite. Appl Radiat Isotop 64:957–964
Berzina-Cimdina L, Borodajenko N (2012) Research of calcium phosphates using fourier transform infrared spectroscopy. In: Theophanides T (ed) Infrared spectroscopy - materials science, engineering and technology
Beyzaei H, Aryan R, Moghadas H (2015) Novel one-pot process for the synthesis of ethyl 2-imino-4--methyl-2,3-dihydrothiazole-5-arboxylates. J Serbian Chem Soc 80(4):S119–S121
Bezhin NA, Dovhyi II, Baulin VE, Baulin DV, Tsivadzec AY (2018) Physicochemical regularities of strontium sorption by sorbents based on di(tert-butyldicyclohexano)-18-crown-6. Russ Chem Bull 67:489–489
Borai EH , El-Dessouky SI, Hassan HS (2007) Mixed silica and alumina hosted carboxylate oxide for removal of chromium species from wastewater.Adsorp13: 61–71.
Boyd GE, Adamson AM, Myers JLS (1947) The exchange adsorptionof ions from aqueous solutions by organic zeolites, II: kinetics. J Am Chem Soc 69:2836–2848
Cakir P, Inan S, Altas Y (2014) Investigation of strontium and uranium sorption onto zirconium-antimony oxide/polyacrylonitrile(Zr-Sboxide/PAN) composite using experimental design. J Hazard Mater 271:108–119
Choi S, Jeong Y (2008) The removal of heavy metals in aqueous solution by Hydroxyapatite/Cellulose Composite. Fibers Poly 9:267–270
Dabhade MA, Saidutta MB, Murthy DVR (2009) Adsorption of phenol on granular activated carbon from nutrient medium: equilibrium and kinetic study. Int J Environ Res 3(4):557–568
Dubinin MM, Zaverina ED, Radushkevich LV (1947) Sorption and structure of active carbons. J Phys Chem 21:1351–1362
El-Dessouky M I, El-Naggar M R, Abd El-Rahman K M, El-Kamash AM (2011) Thermodynamic and Fixed Bed Studies for the Removal of Cs+ and Sr2+ Ions from Aqueous Solutions Using Fly Ash Based NaA-X Zeolite Blend. International Journal of Environmental Engineering Science 2(1):117-134.
El-Kamash AM (2008) Evaluation of zeolite A for the sorptive removal of Cs+ and Sr2+ ions from aqueous solutions using batch and fixed bed column operations. J Hazard Mater 151:432–445
El-Kamash AM, El-Gammal B, El-Sayed AA (2007) Preparation and evaluation of cerium(IV) tungstate powder as inorganic exchanger in sorption of cobalt and europium ions from aqueous solutions. J Hazard Mater 141:719–728
Fuks L, Herdzik-Koniecko I (2018) Vermiculite as a potential component of the engineered barriers in low- and medium-level radioactive waste repositories. Appl Clay Sci 161:139–150
Gad HM, Hamed MM, Abo Eldahab HMM, Moustafa ME, El-Reefy S (2017) Radiation-induced grafting copolymerization of resin onto the surface of silica extracted from rice husk ash for adsorption of gadolinium. J Mol Liq 231:45–55
Gasser MS, Mekhamer HS, Abdel Rahman RO (2016) Optimization of theutilization of Mg/Fe hydrotalcite like compounds in the removal of Sr(II) from aqueous solution. J Environ Chem Eng 4:4619–4630
Ghaemi A, Mostaedi MT, Maragheh MG (2011) Characterizations of strontium (II) and barium (II) adsorption from aqueous solution using dolomite powder. J Hazard Mater 0:916–992
Goel NK, Ravi Joshi, Bhardwaj YK, Varshney L (2013) Role of radiolytically generated species in polymerization of [2-(acryloyloxy)ethyl]trimethylammonium chloride (AETC) in aqueous medium: Steady state and pulse radiolysis study. Radiation Physics and Chemistry 92:66-70
Gu P, Zhang S, Li X, Wang X, Wen T, Jehan R, Alsaedi A, Hayat T, Wang X (2018) Recent advances in layered double hydroxide-based nanomaterials for the removal of radionuclides from aqueous solution. Environ Pollut 240:493–505
Guan W, Pana J, Oub H, WangX ZX, Hu W, Li C, Wu X (2011) Removal of strontium(II) ions by potassium tetratitanate whisker and sodium trititanate whisker from aqueous solution: equilibrium, kinetics and thermodynamics. Chem Eng J 167:215–222
Hassan MF, Yusof SZ hM (2014) Poly(acrylamide-co-acrylic Acid)-zincacetate polymer electrolytes: studies based on structural and morphology and electricalspectroscopy. Microsc Res 2:30–38
Hassan SM, Awwad NS, Aboterika AHA (2008) Removal of mercury(II) from wastewater using camel bone charcoal. J Hazard Mater 154:992–997
Hassan HS, El-Toony MM, El-Kamash AM (2011) Sorption potential of epoxy/pac composite for the removal of Cs+ ions from aqueous solutions. J Environ Anal Toxic 1:1–8
Helfferich F (1962) Ion exchange. McGraw Hill, New York
Ho YS, McKay G (2000) The kinetics of sorption of divalent metal ions onto sphagnum moss peat. Water Res 34:735–742
Ho YS, McKay G (2002) Application of kinetic models to the sorption of copper(II) on to peat. Adsorpt Sci Technol 20(8):797–815
Ibrahim HA, Abdel Moamen OA, Abdel Monem N, Ismail IM, (2018) Assessment of kinetic and isotherm models for competitive sorption of Cs and Sr. Chemical Engineering Communications 205 (9):1274-1287
Inan S, Tel H, Altas Y (2006) Sorption studies of strontium on hydrous zirconium dioxide. J Radioanal Nucl Chem 267:615–621
International atomic energy authority TECDOC 1336 (2003) Combined methods for liquid radioactive waste treatment
Jaber HL, Hammood AS, Parvin N (2018) Synthesis and characterization of hydroxyapatite powder from natural Camel bone. J Aust Ceram Soc 54:1
Jang SH, Min BG, Jeong YG, Lyoo WS, Lee SC (2008) Removal of lead ions in aqueous solution by hydroxyapatite/polyurethane composite foams. J Hazard Mater 152:1285–1292
Juang R, Wu F, Tseng R (1996) Adsorption Isotherms of Phenolic compounds from aqueous solutions onto activated carbon fibers. J Chem Eng Data 41:487–492
Kausar A, Bhatti HN, Iqbal M, Ashraf A (2017) Batch versus column modes for the adsorption of radioactive metal onto rice husk waste: conditions optimization through response surface methodology. Water Sci Technol 76(5):1035–1043
Kausar A, MacKinnon G, Alharthi A, Hargreaves J, Bhatti HN, Iqbal M (2018) A green approach for the removal of Sr(II) from aqueous media: kinetics, isotherms and thermodynamic studies. J Mol Liquids 257:164–172
Khan AA, Singh PP (1987) Adsorption thermodynamics of carbofuran on Sn(IV) arsenosilicate in H+, Na+ and Ca2+ forms. J Colloid Sci 24:33–42
Kim G, Sim K, Kim S, Komarneni S, Cho Y (2018) Selective sorption of strontium using two different types of nanostructured manganese oxides. J Porous Mater 25:321–328
Kongsri S, Techawongstien S, Chanthai S (2015) The Synergistic Effect of Anionic Surfactant on Adsorption Enhancement of the Carotenoids Extractusing Mesoporous Hydroxyapatite Nanoparticles. Orient J Chem 31(3):1331–1343
Krishnan KA, Anirudhan TS (2003) Removal of cadmium(II) from aqueoussolutions by steam activated sulphurised carbon prepared from sugar-cane bagassepith: kinetics and equilibrium studies. Water SA 29:191–201
Kütahyal C, Eral M (2004) Selective adsorption of uranium from aqueous solutions using activated carbon prepared from charcoal by chemical activation. Sep Purif Technol 40:109–114
Li G-Y, Koenig JL (2004) FTIR mapping: polymer swelling and solvent segregation in benzene/cyclohexane–polyisoprene rubber system. J Elastomers Plast
Li Z, Ramay HR, Hauch KD, Xiao D, Zhang M (2005) Chitosan–alginate hybrid scaffolds for bone tissue engineering. Biomaterials 26:3919–3928
Li X, Mu W, Xie X, Liu B, Tang H, Zhou G, Wei H, Jian Y, Luo S (2014) Strontium adsorption on tantalum-doped hexagonal tungsten oxide. J Hazard Mater 264:386–394
Manaila E, Craciun G, Cimpeanu C, Barna C, Fugaru V (2017) Hydrogels synthesized by electron beam rradiation for heavy metal adsorption. Materials 10:540
Metwally SS, Ahmed IM, Rizk HE (2017a) Modification of hydroxyapatite for removal of cesium and strontium ions from aqueous solution. J Alloys Compd 709:438–444
Metwally SS, Ghaly M, El-Sherief EA (2017b) Physicochemical properties of synthetic nano-birnessite and its enhanced scavenging of Co2 and Sr2 ions from aqueous solutions. Mater Chem Phys 193:63–72
Milenkovi AS, Smiciklas ID, Markovi JP, Vukeli NS (2014) Immobilization of 60Co and 90Sr ions using Red mud from aluminum industry. Nucl Techn Rad Prot 29:79–87
Mobtaker HG, Pakzad SM, Yousefi T (2018) Magnetic Cu HCNPAN nano composite as an efficient adsorbent for strontium uptake. J Nucl Mater 504:55–60
Mohan D, Chander S (2006) Single, binary, and multicomponent sorption of iron and manganese on lignite. J Colloid Interface Sci 299:57–76
Momčilović MZ, Onjia AE, Trajković DN, Kostić MM, Milenković D, Bojić DV, Bojić AL (2018) Experimental and modelling study on strontium removal from aqueous solutions by Lagenaria vulgaris biosorbent. J Mol Liq 258(2018):335–344
Naeem H, Bhatti HN, Sadaf S, Iqbal M (2017) Uranium remediation using modified Vigna radiata waste biomass. Appl Radiat Isot 123:94–101
Nikolic G, Zlatkovic S, Cakic M, Cakic S, Lacnjevac C, Rajic Z (2010) Fast fourier transform IR characterization of epoxy GY systems crosslinked with aliphatic and cycloaliphatic EH polyamine adducts. Sensors: 10, 684-696. Nucl Eng Technol 49:172–177
Osmanlioglu AE (2015) Decontamination and solidification of liquid radioactive waste using natural zeolite. J Mater Cycles Waste Manag 17:690–694
Pengcheng G, Zhang S, Li X, Wang X, Wen T, Jehan R, Alsaedi A, Hayat T , Wang X(2018) Recent advances in layered double hydroxide-based nanomaterials for the removal of radionuclides from aqueous solution. Environmental Pollution 493-505.
Park Y, Shin WS, Choi S (2013) Removal of cobalt and strontium from groundwater by sorption onto fishbone. J Radioanal Nucl Chem 295:789–799
Raju MP, Raju KM (2001) Design and synthesis of superabsorbent polymers. J Appl Polym Sci 80:2635–2639
Rani RD, Sasidhar P (2012) Geochemical and thermodynamic aspects of sorption of strontium on kaolinite dominated clay samples at Kalpakkam. Environ Earth Sci 65:1265–1274
Reddy SR, Pandey NK, Mallika C, Mudali UK (2016) Equilibrium and kinetics of adsorption of ruthenium on activated charcoal from nitric acid solutions. Chem Eng Res Des 1(1 5):91–97
Said B, Grandjean A, Barre Y, Tancret F, Fajula F, Galarneau A (2016) LTA zeolite monoliths with hierarchical trimodal porosity as highly efficient microreactors for strontium capture in continuous flow. Microporous Mesoporous Mater 232:39–52
Sakthivel P, Ragu A (2015) Synthesis and characterization of nano hydroxyapatite with polymer matrix nano composite for biomedical applications. Int J Chem Environ Biol Sci 3(5):383–385
Sheha RR, Moussa SI, Attia MA, Sadeek SA, Someda HH (2018) Synthesis and sorption performance of novel sorbents for selective solid-phase extraction of Eu(III) ions from aqueous solutions. Russ J Appl Chem 91(3):483–498
Silva MC, Cristovan FH, Ruggiero R, Cruz WO, Marletta A (2006) Near-infrared emission of Nd-PSS films. Braz J Phys 36(2A)
Siyam T (2001) Development of acrylamide polymers for the treatment of waste water review. Designed Mono Poly 4:107–168
Šljivić-Ivanović MZ, Smičiklas ID, Dimović SD, Jović MD, Dojčinović BP (2005) Study of simultaneous radionuclide sorption by mixture design Methodology. Ind Eng Chem Res 54:11212–11221
Smiciklas I, Dimovic S, Sljivic M, Plecas I (2008) The batch study of Sr2+ sorption by bone. J Environ Sci Health A43:210–207
Smičiklas I, Dimović S, Šljivić M, Plećaš I, Lončar B, Mitric M (2010) Resource recovery of animal bones: study on sorptive properties and mechanism for Sr2+ ions. J Nucl Mater 400:15–24
Song S, Zhang S, Huang S, Zhang R, Yin L, Hu Y, Wen T, Zhuang L, Hu B, Wang X (2019) A novel multi-shelled Fe3O4@MnOx hollow microspheres for Immobilizing U(VI) and Eu(III). Chem Eng J 355:697–709
Voronina AV, Semenishchev VS (2016) Mechanism of strontium sorption by the mixed nickel–potassium ferrocyanide based on hydrated titanium dioxide. J Radioanal Nucl Chem 307(1):577–590
Wang X, Min BG (2008) Cadmium sorption properties of poly(vinyl alcohol)/hydroxyapatite cryogels: II. Effects of operating parameters. J Sol Gel Sci Technol 45:17–22
Wang X, Yuc S, Wub Y, Pang H, Yua S, Chen Z, Hou J, Al saedid A, Hayat T, S Wang S (2018) The synergistic elimination of uranium (VI) species from aqueous solution using bi-functional nanocomposite of carbon sphere and layered double hydroxide. Chem Eng J 342:321–330
Warwick PE, Croudace IW, Holland NG, Watson JWP (2006) Effective media for immobilising and isolating radionuclides from aqueous nuclear wastes: reaction products of bone char and uranyl ions, WM’ 06 Conference, February 26–March 2, Tucson, AZ.
Yakout SM, Hassan HS (2014) Adsorption characteristics of sol gel-derived Zirconia for cesium ions from aqueous solutions. Molecu1es 9(7):9160–9172
Yan T, Wei D, Zheng X, Xin X, Zhang N, Wu D, Yan L, Li H, Du B, Wei Q (2010) A facil fabrication of hydroxyapatite in vitro using polymer faciculus as biotemplate carrier. Adv Mater Lett 1:106–113
Yavari R, Huang YD, Mostofizadeha A (2010) Sorption of strontium ions from aqueous solutions by oxidized multiwall carbon nanotubes. J Radioanal Nucl Chem 285:703–710
Ye F, Yan P (2016) The batch and modeling investigation of Sr(II) adsorption on carbon nanofibers. J Radioanal Nucl Chem 310:279–285
Yin Y, Wang J, Yang X, Li W(2017) Removal of Strontium Ions by immobilized Saccharomyces Cerevisiae in magnetic chitosan microspheres
Yusan S, Erenturk S (2011) Adsorption characterization of strontium on PAN/zeolite composite adsorbent. World J Nucr Sci Tech 1:6–12
Zenknect S, Ardois C, Gaudet JP, Barthes V (2005) Reactive transport of 85Sr in a Chernobyl sand column: static and dynamic experiments and modeling. J Contam Hydrol l76:139–165
Zuo R, Meng L, Guan X, Wang J, Lin Y (2019) Removal of strontium from aqueous solutions by acrylamide-modified attapulgite. https://doi.org/10.1007
Author information
Authors and Affiliations
Corresponding author
Additional information
Responsible editor: Tito Roberto Cadaval Jr
Publisher’s note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Highlights
• A polymeric composite material, hydroxyapatite/poly (acrylamide-acrylic acid) was synthesized by gamma-induced polymerization.
• Feasibility of using the prepared polymeric material for the removal of hazardous materials such as Sr(II) was evaluated.
• The monolayer capacity of the prepared composite is 53.59 mg/g.
• Ion exchange was proved to be the dominant mechanism and thermodynamic parameters indicated that the sorption is an endothermic and spontaneous process.
Rights and permissions
About this article
Cite this article
Hassan, H.S., El-Kamash, A.M. & Ibrahim, H.AS. Evaluation of hydroxyapatite/poly(acrylamide-acrylic acid) for sorptive removal of strontium ions from aqueous solution. Environ Sci Pollut Res 26, 25641–25655 (2019). https://doi.org/10.1007/s11356-019-05755-1
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11356-019-05755-1