Magnetic Fe3O4 nanoparticles loaded papaya (Carica papaya L.) seed powder as an effective and recyclable adsorbent material for the separation of anionic azo dye (Congo Red) from liquid phase: Evaluation of adsorption properties

Magnetic Fe3O4 nanoparticles loaded papaya (Carica papaya L.) seed powder as an effective and recyclable adsorbent material for the separation of anionic azo dye (Congo Red) from liquid phase: Evaluation of adsorption properties

[Display omitted] •A novel magnetic Fe3O4-PSP was synthesized and utilized as an adsorbent for the removal of CR from the liquid phase.•Fe3O4-PSP nanocomposite was applied to optimize the adsorption key parameters for CR dye removal.•Magnetic Fe3O4-PSP nanocomposite showed good behavior in magnetic...

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Bibliographic Details
Published in:Journal of molecular liquids Vol. 345; p. 118255
Main Authors: Subbaiah Munagapati, Venkata, Wen, Hsin-Yu, Gollakota, Anjani R.K., Wen, Jet-Chau, Shu, Chi-Min, Andrew Lin, Kun-Yi, Tian, Zhong, Wen, Jhy-Horng, Mallikarjuna Reddy, Guda, Zyryanov, Grigory V.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2022
Subjects:
Adsorption mechanism
Congo red
Fe3O4-PSP
Magnetic separation
Regeneration
Regeneration
Congo red
Magnetic separation
Fe3O4-PSP
Adsorption mechanism
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Summary:[Display omitted] •A novel magnetic Fe3O4-PSP was synthesized and utilized as an adsorbent for the removal of CR from the liquid phase.•Fe3O4-PSP nanocomposite was applied to optimize the adsorption key parameters for CR dye removal.•Magnetic Fe3O4-PSP nanocomposite showed good behavior in magnetic separation.•Fe3O4-PSP nanocomposite exhibited an excellent CR saturated adsorption capacity of 216.9 mg/g at pH 5.0.•Fe3O4-PSP can be regenerated and easily separated from the solution without any weight loss. Magnetic adsorbents have recently gotten a lot of attention because of their eco-friendliness, ease of separation, and inexpensive cost. In this work, a new magnetic Fe3O4 loaded papaya seed powder (Fe3O4-PSP) was successfully synthesized and utilized as a biosorbent to eliminate Congo Red (CR) from the liquid phase. The prepared Fe3O4-PSP was characterized by BET, FE-SEM/EDX, VSM, XRD, pHPZC, and FT-IR analysis. Batch tests were carried out to assess the influence of several adsorption factors like temperature (303–333 K), pH function (2.0–10.0), CR initial concentration (100–400 mg/L), Fe3O4-PSP mass (0.01–0.08 g/30 mL), and contact time (0–420 min). The pHPZC of Fe3O4-PSP was computed at 5.4. Four kinetic models were used to analyze the kinetic data, and the most appropriate model with an R2 value of 0.9991 was the pseudo-second-order. In accordance with the intra-particle diffusion model, the adsorption follows a three-step mechanism. The adsorption equilibrium data were examined using Dubinin-Radushkevich (D-R), Freundlich, Langmuir, and Temkin models and the adsorption data were well represented by the Langmuir isotherm (R2 = 0.9962). The saturated adsorption efficiency of Fe3O4-PSP calculated from the Langmuir model was 216.9 mg/g at 303 K. The data was examined using error and regression coefficient functions, such as the χ2 and SSE, to define the best-suitable isotherm and kinetic models. Hydrogen bonding and electrostatic interactions between CR and Fe3O4-PSP are responsible for the primary adsorption mechanism. The thermodynamic factors ΔSo (64.8 J/mol K), ΔGo (−1.1997 ∼ 3.1439 kJ/mol for 303 ∼ 333 K), and ΔHo (18.4 kJ/mol) revealed that the adsorption of CR onto Fe3O4-PSP was feasible, spontaneous, and endothermic. The saturation magnetization of Fe3O4-PSP was found to be 54.4 emu/g. An external magnetic field can regenerate and easily separate Fe3O4-PSP from an aqueous solution with no weight loss. According to the findings, Fe3O4-PSP is a potentially recyclable adsorbent for removing CR dye from contaminated water.
ISSN:0167-7322
1873-3166
DOI:10.1016/j.molliq.2021.118255