References

1. Z. Yang, Y.G. Wang, Y.J. Jing, Q.W. Wei, F.F. Leng, H. Ma, Y.L. Wang, J.X. Chen, Preparation and modification of peanut shells and their application for heavy metals adsorption, Bulg. Chem. Commun., 48 (2016) 535–542.
2. H. Ali, Biodegradation of synthetic dyes—a review, Water Air Soil Pollut., 213 (2010) 251–273.
3. X.J. Li, H.Q. Xue, L. Huang, A.J. Qian, Study on adsorption of Pb²⁺ in water by NaOH modified peanut shell, Coal Chem. Ind., 38 (2015) 51–54.
4. R. Jain, M. Mathur, S. Sikarwar, A. Mittal, Removal of the hazardous dye Rhodamine B through photocatalytic and adsorption treatments, J. Environ. Manage., 85 (2007) 956–964.
5. P. Saharan, V. Kumar, J. Mittal, V. Sharma, A.K. Sharma, Efficient ultrasonic assisted adsorption of organic pollutants employing bimetallic-carbon nanocomposites, Sep. Sci. Technol., 56 (2021) 2895–2908.
6. J. Lei, X.Y. Yi, C. Yang, G.N. Lu, Z. Dang, Adsorption mechanism of and Cd²⁺ and Pb²⁺ modified peanut shells, Chin. J. Environ. Eng., 8 (2014) 1775–1783.
7. H. Lv, Preparation and characterization of quaternary ammonium peanut shell sorbent, Guangzhou Chem. Eng., 42 (2014) 63–65.
8. T.O. Ajiboye, O.A. Oyewo, D.C. Onwudiwe, Adsorption and photocatalytic removal of Rhodamine B from wastewater using carbon-based materials, FlatChem, 29 (2021) 100277, doi: 10.1016/j.flatc.2021.100277.
9. J. Mittal, Permissible synthetic food dyes in India, Resonance – J. Sci. Edu., 25 (2020) 567–577.
10. A. Mittal, R. Jain, J. Mittal, S. Varshney, S. Sikarwar, Removal of yellow ME 7 GL from industrial effluent using electrochemical and adsorption techniques, Int. Environ. Pollut., 43 (2010) 308–323.
11. Q.-S. Wang, Q.-Z. Zhai, Study on the assembly of hemoglobin by nano mesoporous SBA-15 and catalytic activity, J. Sol-Gel Sci. Technol., 84 (2017) 70–86.
12. K. Kadirvelu, M. Kavipriya, C. Karthika, M. Radhika, N. Vennilamani, S. Pattabhi, Utilization of various agricultural wastes for activated carbon preparation and application for the removal of dyes and metal ions from aqueous solutions, Bioresour. Technol., 87 (2003) 129–132.
13. T. Robinson, G. McMullan, R. Marchant, P. Nigam, Remediation of dyes in textile effluent: a critical review on current treatment technologies with a proposed alternative, Bioresour. Technol., 77 (2001) 247–255.
14. H.F. Lv, J.P. Zhai, Effect of acid formaldehyde modification on the adsorption of heavy metal ions by peanut shell, Environ. Pollut. Prevent., 29 (2007) 837–840.
15. A.M. Azzam, S.T. El-Wakeel, B.B. Mostafa, M.F. El-Shahat, Removal of Pb, Cd, Cu and Ni from aqueous solution using nano scale zero valent iron particles, J. Environ. Chem. Eng., 4 (2016) 2196–2206.
16. Y.R. Li, P. Bai, Y. Yan, W.F. Yan, W. Shi, R.R Xu, Removal of Zn²⁺, Pb²⁺, Cd²⁺, and Cu²⁺ from aqueous solution by synthetic clinoptilolite, Microporous Mesoporous Mater., 273 (2019) 203–211.
17. S.G. Wang, K.K. Wang, C. Dai, H.Z. Shi, J.L. Li, Adsorption of Pb²⁺ on amino-functionalized core–shell magnetic mesoporous SBA-15 silica composite, Chem. Eng. J., 262 (2015) 897–903.
18. A. Mariyam, J. Mittal, F. Sakina, R.T. Baker, A.K. Sharma, A. Mittal, Efficient batch and fixed-bed sequestration of a basic dye using a novel variant of ordered mesoporous carbon as adsorbent, Arabian J. Chem., 14 (2021) 103186, doi: 10.1016/j.arabjc.2021.103186.
19. C. Arora, D. Sahu, D. Bharti, V. Tamrakar, S. Soni, S. Sharma, Adsorption of hazardous dye crystal violet from industrial waste using low-cost adsorbent Chenopodium album, Desal. Water Treat., 167 (2019) 324–332.
20. A. Patel, S. Soni, J. Mittal, A. Mittal, C. Arora, Sequestration of crystal violet from aqueous solution using ash of black turmeric rhizome, Desal. Water Treat., 220 (2021) 342–352.
21. J. Mittal, R. Ahmad, M.O. Ejaz, A. Mariyam, A. Mittal, A novel, eco-friendly bio-nanocomposite (Alg-Cst/Kal) for the adsorptive removal of crystal violet dye from its aqueous solutions, Int. J. Phytorem., 24 (2022) 796–807.
22. S. Soni, P.K. Bajpai, D. Bharti, J. Mittal, C. Arora, Removal of crystal violet from aqueous solution using iron-based metal organic framework, Desal. Water Treat., 205 (2020) 386–399.
23. J. Mittal, R. Ahmad, A. Mittal, Kahwa tea (Camellia sinensis) carbon — a novel and green low-cost adsorbent for the sequestration of titan yellow dye from its aqueous solutions, Desal. Water Treat., 227 (2021) 404–411.
24. R. Jain, P. Sharma, S. Sikarwar, J. Mittal, D. Pathak, Adsorption kinetics and thermodynamics of hazardous dye Tropaeoline 000 unto Aeroxide Alu C (Nano alumina): a non-carbon adsorbent, Desal. Water Treat., 52 (2014) 7776–7783.
25. A. Mariyam, J. Mittal, F. Sakina, R.T. Baker, A.K. Sharma, Adsorption behaviour of Chrysoidine R dye on a metal/halidefree variant of ordered mesoporous carbon, Desal. Water Treat., 223 (2021) 425–433.
26. S. Soni, N. Rai, P.K. Bajpai, J. Mittal, C. Arora, Enhanced sequestration of an acidic dye on novel bimetallic metal-organic framework, J. Dispersion Sci. Technol., 44 (2023) 1500–1504.
27. Mu. Naushad, A.A. Ansari, Z.A. ALOthman, J. Mittal, Synthesis and characterization of YVO₄:Eu³⁺ nanoparticles: kinetics and isotherm studies for the removal of Cd²⁺ metal ion, Desal. Water Treat., 57 (2016) 2081–2088.
28. R. Ahmad, I. Hasan, A. Mittal, Adsorption of Cr(VI) and Cd(II) on chitosan grafted polyaniline-OMMT nanocomposite: isotherms, kinetics and thermodynamics studies, Desal. Water Treat., 58 (2017) 144–153.
29. J. Mittal, R. Ahmad, A. Mariyam, V.K. Gupta, A. Mittal, Expeditious and enhanced sequestration of heavy metal ions from aqueous environment by papaya peel carbon: a green and low-cost adsorbent, Desal. Water Treat., 210 (2021) 365–376.
30. S. Lagergren, Zur theorie der sogenannten adsorption geloester stoffe (About theory of so-called adsorption of soluble substances), Kungliga Svenska Vetenskapsakad, Handl, 24 (1898) 1–39.
31. N. Naushad, Surfactant assisted nano-composite cation exchanger: development, characterization and applications for the removal of toxic Pb²⁺ from aqueous medium, Chem. Eng. J., 235 (2014) 100–108.
32. K.T. Wong, N.C. Eu, S. Ibrahim, H. Kim, Y. Yoon, M. Jang, Recyclable magnetite-loaded palm shell-waste based activated carbon for the effective removal of methylene blue from aqueous solution, J. Cleaner Prod., 115 (2016) 337–342.
33. E. Haque, V. Lo, A.I. Minett, A.T. Harris, T.L. Church, Dichotomous adsorption behaviour of dyes on an aminofunctionalised metal–organic framework, amino-MIL-101(Al), J. Mater. Chem. A, 2 (2014) 193–203.
34. Y.S. Ho, G. McKay, Pseudo-second-order model for sorption processes, Process Biochem., 34 (1999) 451–465.
35. C. Li, Z.H. Xiong, J.M. Zhang, C.S. Wu, the strengthening role of the amino group in metal–organic framework MIL-53 (Al) for methylene blue and malachite green dye adsorption, J. Chem. Eng. Data, 60 (2015) 3414–3422.
36. A. Çelekli, B. Tanrıverdi, H. Bozkurt, Predictive modeling of removal of Lanaset Red G on Chara contraria; kinetic, equilibrium, and thermodynamic studies, Chem. Eng. J., 169 (2011) 166–172.
37. E.I. El-Shafey, S.N.F. Ali, S. Al-Busafi, H.A.J. Al-Lawati, Preparation and characterization of surface functionalized activated carbons from date palm leaflets and application for methylene blue removal, J. Environ. Chem. Eng., 4 (2016) 2713–2724.
38. I. Langmuir, The adsorption of gases on plane surfaces of glass, mica and platinum, J. Am. Chem. Soc., 40 (1918) 136–403.
39. E. Altıntıg, H. Altundag, M. Tuzen, A. Sarı, Effective removal of methylene blue from aqueous solutions using magnetic loaded activated carbon as novel adsorbent, Chem. Eng. Res. Des., 122 (2017) 151–163.
40. L. Liu, S. Fan, Y. Li, Removal behavior of methylene blue from aqueous solution by tea waste: kinetics, isotherms and mechanism, Int. J. Environ. Res. Public Health, 15 (2018) 1321–1327.
41. X. Chen, Modeling of experimental adsorption isotherm data, Information, 6 (2015) 14–22.
42. E. Daneshvar, A. Vazirzadeh, A. Niazi, M. Kousha, Mu. Naushad, A. Bhatnagar, Desorption of methylene blue dye from brown macroalga: effects of operating parameters, isotherm study and kinetic modeling, J. Cleaner Prod., 152 (2017) 443–453.
43. H.M.F. Freundlich, Over the adsorption in solution, J. Phys. Chem., 57 (1906) 385–470.
44. A. Asmat, B. Muhammad, K. Romana, F. Robina, S. Maria, Ultrasound-assisted adsorption of phenol from aqueous solution by using spent black tea leaves, Environ. Sci. Pollut. Res., 25 (2018) 22920–22930.
45. W.J. Lei, X. Huo, X.Y. Zhou, Adsorption characteristics and its parameters estimation of 3,5,6-trichloro-2-pyridinol in purple soil, Trans. Chin. Soc. Agric. Mach., 48 (2017) 267–274.
46. D. Bendaho, T.A. Driss, D. Bassou, Adsorption of acid dye onto activated Algerian clay, Bull. Chem. Soc. Ethiop., 31 (2017) 51–57.
47. D.C. Santos, M.A. Adebayo, E.C. Lima, Application of carbon composite adsorbents prepared from coffee waste and clay for the removal of reactive dyes from aqueous solutions, J. Braz. Chem. Soc., 26 (2015) 924–938.
48. Ö. Gerçel, A. Özcan, A. Safa Özcan, H. Ferdi Gerçel, Preparation of activated carbon from a renewable bio-plant of Euphorbia rigida by H2SO4 activation and its adsorption behavior in aqueous solutions, Appl. Surf. Sci., 253 (2007) 4843–4852.
49. E. Wierzbicka, K Kusmierek, A. Świątkowski, I. Legocka, Efficient Rhodamine B dye removal from water by acidand organo-modified halloysites, Minerals, 12 (2022) 350, doi: 10.3390/min12030350.
50. Z.F. Wang, C.Y. Xiao, S. Yamada, K. Yoshinaga, X.R. Bu, M. Zhang, Concentration-driven phase control for low temperature synthesis of phase-pure anatase and rutile titanium oxide, J. Colloid Interface Sci., 448 (2015) 280–286.