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Received December 13, 2021
Accepted March 4, 2022
- This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Efficient and practical adsorption of mixed anionic dyes in aqueous solution by magnetic NiFe-layered double oxide
Department of Chemistry, Faculty of Science, Thaksin University, Phatthalung 93210, Thailand 1Materials Chemistry Research Center, Department of Chemistry and Center of Excellence for Innovation in Chemistry, Khon Kaen University, Khon Kaen 40002, Thailand
sonchai.i@tsu.ac.th
Korean Journal of Chemical Engineering, October 2022, 39(10), 2675-2684(10), 10.1007/s11814-022-1099-y
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Abstract
The present research reports the adsorption capacity of magnetic NiFe-layered double oxide (NiFe-LDO) derived from the heat treatment of NiFe-layered double hydroxide (NiFe-LDH) on capturing of single anionic dye and mixed dyes in water. The formation and characteristics of NiFe-LDH and NiFe-LDO were verified by XRD, FT-IR, SEM, BET, VSM and UV-VIS. The obtained NiFe-LDO was mainly composed of NiFe2O4 and NiO phases, which showed strong magnetic property and made the adsorbents easily collected by external magnet. The amounts of the anionic dyes were captured on NiFe-LDO surface more than that on NiFe-LDH surface due to the larger surface area (68m2/g for NiFe-LDO and 50m2/g for NiFe-LDH). The maximum adsorption capacity of NiFe-LDO was in the range of 256-313mg/g and 244-300mg/g for eliminating the anionic dyes in single and multiple dye solution, respectively. The chemical adsorption affinity of the anionic dyes on the positive-charge surface of NiFe-LDO increased as follows: methyl orange
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References
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Fu F, Gao Z, Gao L, Li D, Ind. Eng. Chem. Res., 50, 9712 (2011)
Petrie B, Barden R, Kasprzyk-Hordern B, Water Res., 72, 3 (2015)
Yagub MT, Sen TK, Afroze S, Ang HM, Adv. Colloid Interface Sci., 209, 172 (2014)
Tkaczyk A, Mitrowska K, Posyniak A, Sci. Total Environ., 717, 137222 (2020)
Katheresan V, Kansedo J, Lau SY, J. Environ. Chem. Eng., 6, 4676 (2018)
Intachai S, Nakato T, Khaorapapong N, Appl. Clay Sci., 201, 105927 (2021)
Li N, Zheng M, Chang X, Ji G, Lu H, Xue L, Pan L, Cao J, J. Solid State Chem., 184, 953 (2011)
Krishnan KA, Ajmal K, Faisal AK, Liji TM, Sep. Sci. Technol., 50, 1147 (2015)
Dev VV, Baburaj G, Antony S, Arun V, Krishnan KA, J. Clean Prod., 255, 120309 (2020)
Wang Q, Lei L, Wang F, Chen C, Kang X, Wang C, Zhao J, Yang Q, Chen Z, J. Solid State Chem., 292, 121656 (2020)
Huang C, Cai B, Zhang L, Zhang C, Pan H, J. Solid State Chem., 297, 122030 (2021)
Jiang JQ, Ashekuzzaman SM, Curr. Opin. Chem. Eng., 1, 191 (2012)
Intasa-ard SG, Imwiset KJ, Bureekaew S, Ogawa M, Dalton Trans., 47, 2896 (2018)
Mohapatra L, Parida K, J. Mater. Chem. A, 4, 10744 (2016)
Rathee G, Awasthi A, Sood D, Tomar R, Tomar V, Chandra R, Sci. Rep., 9, 16225 (2019)
Sun H, Heo YJ, Park JH, Rhee KY, Park SJ, Nanotechnol. Rev., 9, 1381 (2020)
Gao L, Li Q, Hu X, Wang X, Song H, Yan L, Xiao H, Appl. Clay Sci., 126, 299 (2016)
Di G, Zhu Z, Zhang H, Zhu J, Lu H, Zhang W, Qiu Y, Zhu L, Küppers S, Chem. Eng. J., 328, 141 (2017)
Elmoubarki R, Mahjoubi FZ, Elhalil A, Tounsadi H, Abdennouri M, Sadiq M, Qourzal S, Zouhri A, Barka N, J. Mater. Res. Technol., 6, 271 (2017)
Hu M, Yan X, Hu X, Feng R, Zhou M, Colloids Surf. A: Physicochem. Eng. Asp., 540, 207 (2018)
Khodam F, Amani-Ghadim HR, Aber S, Amani-Ghadim AR, Ahadzadeh I, J. Ind. Eng. Chem., 68, 311 (2018)
Bai Z, Hu C, Liu H, Qu J, J. Colloid Interface Sci., 539, 146 (2019)
Lei C, Pi M, Kuang P, Guo Y, Zhang F, J. Colloid Interface Sci., 496, 158 (2017)
Zubair M, Jarrah N, Manzar SA, Al-Harthi M, Daud M, Mu’azu ND, Haladu SA, J. Mol. Liq., 230, 344 (2017)
Teepakakorn AP, Yamaguchi T, Ogawa M, Chem. Lett., 48, 398 (2019)
Zubair M, Daud M, McKay G, Shehzad F, Al-Harthi MA, Appl. Clay Sci., 143, 279 (2017)
Tang J, Mu B, Zong L, Wang A, J. Clean Prod., 172, 673 (2018)
Lu Y, Jiang B, Fang L, Ling F, Gao J, Wu F, Zhang X, Chemosphere, 152, 415 (2016)
Jiang DB, Jing C, Yuan Y, Feng L, Liu X, Dong F, Dong B, Zhang Y, J. Colloid Interface Sci., 540, 398 (2019)
Xia YM, He ZM, Su JB, Tang B, Hu KJ, Lu YL, Sun SP, Li ZP, RSC Adv., 8, 4284 (2018)
Zhao G, Li C, Wu X, Yu J, Jiang X, Hu W, Jiao F, Appl. Surf. Sci., 434, 251 (2018)
Vinayagam R, Pai S, Murugesan G, Varadavenkatesan T, Narayanasamy S, Selvaraj R, Chemosphere, 286, 131938 (2022)
Nayak S, Parida KM, Sci. Rep., 9, 2458 (2019)
Suppaso C, Pongkan N, Intachai S, Ogawa M, Khaorapapong N, Appl. Clay Sci., 213, 106115 (2021)
Jia Y, Ding L, Ren P, Zhong M, Ma J, Fan X, J. Chem. Eng. Data, 65, 725 (2020)
Shabbir R, Gu A, Chen J, Khan MM, Wang P, Jiao Y, Zhang Z, Liu Y, Yang Y, Int. J. Environ. Anal. Chem., 9, 105197 (2021)
Khan A, Naeem A, Mahmood T, Ahmad B, Ahmad Z, Farooq M, Saeed T, Int. J. Environ. Sci. Technol., 19, 2515 (2022)
Chiu CW, Liao YL, Lin JJ, Ind. Eng. Chem. Res., 51, 581 (2012)
Vimonses V, Lei S, Jin B, Chow CWK, Saint C, Chem. Eng. J., 148, 354 (2009)
Selvaraj R, Pai S, Murugesan G, Pandey S, Bhole R, Gonsalves D, Varadavenkatesan T, Vinayagam R, Appl. Nanosci., 11, 2227 (2021)
Varadavenkatesan T, Pai S, Vinayagam R, Selvaraj R, Mater. Chem. Phys., 272, 125017 (2021)
Palza H, Delgado K, Govan J, Appl. Clay Sci., 183, 105350 (2019)
Sarkar B, Xi Y, Megharaj M, Naidu R, Appl. Clay Sci., 51, 370 (2011)
Tămaş A, Cozma I, Cocheci L, Lupa L, Rusu G, Front. Chem., 8, 57353 (2020)
Mi X, Li G, Zhu W, Liu L, J. Chem., 2016, 8457030 (2016)
Mersly LE, El Mouchtari EM, Moujahid EM, Forano C, Haddad ME, Briche S, Alaoui TA, Rafqah S, J. Sci.-Adv. Mater. Devices, 6, 118 (2021)
Roosta M, Ghaedi M, Mohammadi M, Powder Technol., 267, 134 (2014)
Zhang Z, Chen H, Wu W, Pang W, Yan G, Bioresour. Technol., 293, 122100 (2019)
Fu F, Gao Z, Gao L, Li D, Ind. Eng. Chem. Res., 50, 9712 (2011)
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