Oxalate Intercalated Mg/Cr Layered Double Hydroxide as Adsorbent of Methyl Red and Methyl Orange from Aqueous Solution

Badri, Arini Fousty; Juleanti, Novie; Palapa, Neza Rahayu; Hanifah, Yuliza; Mohadi, Risfidian; Mardiyanto; Lesbani, Aldes

doi:10.12912/27197050/135509

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Tytuł artykułu

Oxalate Intercalated Mg/Cr Layered Double Hydroxide as Adsorbent of Methyl Red and Methyl Orange from Aqueous Solution

Autorzy

Badri Arini Fousty , Juleanti Novie , Palapa Neza Rahayu , Hanifah Yuliza , Mohadi Risfidian , Mardiyanto , Lesbani Aldes

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DOI

10.12912/27197050/135509

Warianty tytułu

Języki publikacji

Abstrakty

Mg/Cr layered double hydroxide (LDH) has been successfully synthesized by means of the coprecipitation method followed by the intercalation process using oxalate to form Mg/Cr-oxalate. The materials were characterized using XRD, BET, and FTIR and then applied as an adsorbent of anionic dyes i.e. methyl red (MR) and methyl orange (MO). MR and MO adsorption was studied through variations of adsorption time, concentration, temperature, desorption process, and adsorbent regeneration. The XRD characterization results showed an increase in the interlayer distance from 7.62 Å to 11.35 Å after the intercalation process. The increase of interlayer space of Mg/Cr-oxalate is also equal to the BET data, which shows an increase in surface area from 21.511 m²/g to 49.270 m²/g. The kinetics and isotherm parameters of MR and MO adsorption using Mg/Cr LDH and Mg/Cr-oxalate showed the same results following the PFO kinetics model and Langmuir isotherm model with R² close to one. Mg/Cr LDH has the adsorption capacity for MR and MO up to 61.728 mg/g 54.645 mg/g, respectively. In turn, the highest adsorption capacity is achieved by Mg/Cr-oxalate for MR adsorption at 81.235 mg/g and MO at 71.429 mg/g. The thermodynamic parameters of MR and MO adsorption using Mg/Cr LDH and Mg/Cr-oxalate indicate that the adsorption process is endothermic and spontaneous.

Słowa kluczowe

layered double hydroxide dyes adsorption intercalation kinetic thermodynamic

Wydawca

Lubelski Oddział Polskiego Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology
WNGB Wydawnictwo Naukowe

Czasopismo

Ecological Engineering & Environmental Technology

Rocznik

2021

Tom

Vol. 22, iss. 3

Strony

71--81

Opis fizyczny

Bibliogr. 24 poz., rys., tab.

Twórcy

autor

Badri Arini Fousty

Graduate School of Mathematics and Natural Sciences, Universitas Sriwijaya, Jl. Raya Palembang-Prabumulih, Km. 32, Ogan Ilir 30662, South Sumatra, Indonesia

https://orcid.org/0000-0001-9735-3547

autor

Juleanti Novie

Department of Chemistry, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya, Jl. Raya Palembang Prambumulih Km. 32, Ogan Ilir 30662, South Sumatra, Indonesia

https://orcid.org/0000-0002-3334-4139

autor

Palapa Neza Rahayu

Graduate School of Mathematics and Natural Sciences, Universitas Sriwijaya, Jl. Raya Palembang-Prabumulih, Km. 32, Ogan Ilir 30662, South Sumatra, Indonesia

https://orcid.org/0000-0003-3857-2680

autor

Hanifah Yuliza

Research Center of Inorganic Materials and Complexes, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya, Palembang 30139, Indonesia

https://orcid.org/0000-0003-4152-5367

autor

Mohadi Risfidian

Department of Chemistry, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya, Jl. Raya Palembang Prambumulih Km. 32, Ogan Ilir 30662, South Sumatra, Indonesia
Research Center of Inorganic Materials and Complexes, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya, Palembang 30139, Indonesia

https://orcid.org/0000-0003-4974-4329

autor

Mardiyanto

Department of Pharmacy, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya, Jl. Raya Palembang-Prabumulih, Km. 32, Ogan Ilir 30662, South Sumatra, Indonesia

https://orcid.org/0000-0002-7782-4417

autor

Lesbani Aldes

aldeslesbani@pps.unsri.ac.id

Graduate School of Mathematics and Natural Sciences, Universitas Sriwijaya, Jl. Raya Palembang-Prabumulih, Km. 32, Ogan Ilir 30662, South Sumatra, Indonesia
Research Center of Inorganic Materials and Complexes, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya, Palembang 30139, Indonesia

https://orcid.org/0000-0001-5054-2324

Bibliografia

1. Ai, L., Zhang, C., Meng, L. 2011. Adsorption of methyl orange from aqueous solution on hydrothermal synthesized Mg-Al layered double hydroxide. Journal of Chemical and Engineering Data, 56, 4217–4225.
2. Amelia, S., Maryudi, M. 2019. Application of natural zeolite in methylene blue wastewater treatment process by adsorption method. Jurnal Bahan Alam Terbarukan, 8, 144–147.
3. Badri, A.F., Palapa, N.R., Mohadi, R., Lesbani, A. 2021. Mg-Cr layered double hydroxide with intercalated oxalic anion for removal cationic dyes rhodamine B and methylene blue. Journal of Environmental Treatment Techniques, 9, 85–94.
4. Batool, F., Akbar, J., Iqbal, S., Noreen, S., Bukhari, S.N.A. 2018. Study of isothermal, kinetic, and thermodynamic parameters for adsorption of cadmium: an overview of linear and nonlinear approach and error analysis. Bioinorganic Chemistry and Applications, 2018.
5. Belhamdi, B., Merzougui, Z., Trari, M., Addoun, A. 2016. A kinetic, equilibrium and thermodynamic study of L-phenylalanine adsorption using activated carbon based on agricultural waste (date stones). Journal of Applied Research and Technology, 14, 354–366.
6. Benkhaya, S., M’rabet, S., El Harfi, A. 2020. Classifications, properties, recent synthesis and applications of azo dyes. Heliyon, 6.
7. Imron, M., Said, M. 2017. Adsorption of procion red using layer double hydroxide Mg/Al. Science and Technology Indonesia, 2, 64–67.
8. David Kowanga, K., Omare Mauti, G., Mbaka Mauti, E., Gatebe, E. 2016. Kinetic, sorption isotherms, pseudo-first-order model and pseudo-second-order model studies of Cu(II) and Pb(II) using defatted Moringa oleifera seed powder. The Journal of Phytopharmacology, 5, 71–78.
9. Ebelgi, A.N., Ayawei, N., Wankasi, D. 2020. Interpretation of adsorption thermodynamics and kinetics. Open Journal of Physical Chemistry, 10, 166–182.
10. Vinsiah, R., Mohadi, R., Lesbani, A. 2017. Performance of graphite for congo red and direct orange adsorption. Indonesian Journal of Environmental Management and Sustainability.
11. Giscard, D., Kamgaing, T., Temgoua, R.C.T., Ymele, E., Tchieno, F.M.M., Tonlé, I.K. 2016. Intercalation of oxalate ions in the interlayer space of a layered double hydroxide for nickel ions adsorption. International Journal of Basic and Applied Sciences, 5, 144.
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13. He, X., Qiu, X., Hu, C., Liu, Y. 2018. Treatment of heavy metal ions in wastewater using layered double hydroxides: A review. Journal of Dispersion Science and Technology, 39, 792–801.
14. Li, H. qin, Huang, G. he, An, C. jiang, Zhang, W. xiang. 2012. Kinetic and equilibrium studies on the adsorption of calcium lignosulfonate from aqueous solution by coal fly ash. Chemical Engineering Journal, 200–202, 275–282.
15. Mishra, G., Dash, B., Pandey, S. 2018. Layered double hydroxides: A brief review from fundamentals to application as evolving biomaterials. Applied Clay Science, 153, 172–186.
16. Murtihapsari, M., Mangallo, B., Handyani, D.D. 2017. Model isoterm freundlich dan langmuir oleh adsorben arang aktif bambu andong (G. verticillata (Wild) Munro) dan bambu ater (G. atter (Hassk) Kurz ex Munro). Jurnal Sains Natural, 2, 17.
17. Palapa, N.R., Taher, T., Rahayu, B.R., Mohadi, R., Rachmat, A., Lesbani, A. 2020. CuAl LDH/Rice Husk Biochar Composite for Enhanced Adsorptive Removal of Cationic Dye from Aqueous Solution. Bulletin of Chemical Reaction Engineering & Catalysis, 15, 525–537.
18. Rathee, G., Awasthi, A., Sood, D., Tomar, R., Tomar, V., Chandra, R. 2019. A new biocompatible ternary Layered Double Hydroxide Adsorbent for ultrafast removal of anionic organic dyes. Scientific Reports, 9, 1–14.
19. Rubia, Bhardwaj, A. 2016. International journal of engineering sciences & research technology. International Journal of Engineering Science and Research, 5, 778–781.
20. Semeraro, P., Fini, P., D’Addabbo, M., Rizzi, V., Cosma, P. 2017. Removal from wastewater and recycling of azo textile dyes by alginate-chitosan beads. International Journal of Environment, Agriculture and Biotechnology, 2, 1835–1850.
21. Shan, R. ran, Yan, L. guo, Yang, Y. ming, Yang, K., Yu, S. jun, Yu, H. qin, Zhu, B. cun, Du, B. 2015. Highly efficient removal of three red dyes by adsorption onto Mg-Al-layered double hydroxide. Journal of Industrial and Engineering Chemistry, 21, 561–568.
22. Starukh, H., Levytska, S. 2019. The simultaneous anionic and cationic dyes removal with Zn–Al layered double hydroxides. Applied Clay Science, 180, 1–5.
23. Taher, T., Christina, M.M., Said, M., Hidayati, N., Ferlinahayati, F., Lesbani, A. 2019. Removal of iron(II) using intercalated Ca/Al layered double hydroxides with [-SiW12O40]4-. Bulletin of Chemical Reaction Engineering Catalysis, 14, 260–267.
24. Zhao, G., Liu, L., Li, C., Zhang, T., Yan, T., Yu, J., Jiang, X., Jiao, F. 2018. Construction of diatomite/ ZnFe layered double hydroxides hybrid composites for enhanced photocatalytic degradation of organic pollutants. Journal of Photochemistry and Photobiology A: Chemistry, 367, 302–311.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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