In the present study, adsorption experiments were carried out to investigate the removal of rhodamine B from an aqueous solution using chemically activated carbon from corn cobs, a cheaper adsorbent. The characteristics of carbon were determined using X-ray diffraction, SEM, iodine number, pHpzc, and the Boehm titration method. The results show that the prepared activated carbon is amorphous, microporous, and generally acidic on the surface. The kinetic study of the adsorption of rhodamine B on this carbon was carried out, and the rate of sorption was found to conform to pseudo-second-order kinetics with 80 min as equilibrium time. The equilibrium adsorption revealed that the experimental data fitted better to the Langmuir isotherm model for removing rhodamine B. The interaction rhodamine B-activated carbon is mainly chemisorption type. The optimal conditions of rhodamine B removal onto the carbon of this study are mass of carbon = 0.3 g and pH = 3.15. The maximum monolayer adsorption capacity for rhodamine B removal was found to be 5.92 mg.g^-1. This study has shown that the prepared activated carbon makes it possible to effectively clean up wastewater contaminated by rhodamine B with a removal efficiency of up to 99.60% for 300 mg of AC in 25 mL of the rhodamine B solution (5 mg.L^-1).

- R.J. Wyman, The Effects of Population on the Depletion of Fresh Water, Population and Development Review, 2013, 39, 687–704.

- R. Kaur, H. Kaur, Solar Driven Photocatalysis-an Efficient Method for Removal of Pesticides from Water and Wastewater, Biointerface Research in Applied Chemistry, 2021, 11, 9071-9084.

- C. Tangsathitkulchai, S. Naksusuk, A. Wongkoblap, P. Phadungbut, P. Borisut, Equilibrium and Kinetics of CO2 Adsorption by Coconut Shell Activated Carbon Impregnated with Sodium Hydroxide, Processes, 2021, 9, 201.

- T.J. Al Musawi, A.H. Mahvi, A.D. Khatibi, D. Balarak, Effective adsorption of ciprofloxacin antibiotic using powdered activated carbon magnetized by iron(III) oxide magnetic nanoparticles, Journal Porous Materials, 2021, 28, 835–852.

- O. Kambiré, L.A.G. Pohan, S.P. Sadia, K.E. Kouadio, L. Ouattara, Voltammetric study of formic acid oxidation via active chlorine on IrO2/Ti and RuO2/Ti electrodes, Mediterranean Journal of Chemistry, 2020, 10, 799-808.

- A.K. Verma, R.R. Dash, P. Bhunia, A review on chemical coagulation/flocculation technologies for removal of colour from textile wastewaters, Journal Environmental Management, 2012, 93, 154–168.

- X. Liu, J. Luo, Y. Zhu, Y. Yang, S. Yang, Removal of methylene blue from aqueous solutions by an adsorbent based on metal-organic framework and polyoxometalate, Journal of Alloys and Compounds, 2015, 648, 986–993.

- H.B. Mansour, O. Boughzala, D. Dridi, D. Barillier, L. Chekir-Ghedira, R. Mosrati, Textiles dyes as a source of wastewater contamination: screening of the toxicity and treatment methods, Revue des Sciences de l’Eau, 2011, 24, 209-238.

- K.E. Kouadio, O. Kambiré, K.S. Koffi, L. Ouattara, Electrochemical oxidation of paracetamol on boron-doped diamond electrode: analytical performance and paracetamol degradation, Journal of Electrochemical Science and Engineering, 2021, 11, 71-86.

- B. Coulibaly, L.A.G. Pohan, O. Kambiré, L.P.S. Kouakou, H. Goure-Doubi, D. Diabaté, L. Ouattara, Valorization of Green Clay from Bouaflé (Ivory Coast) in the Simultaneous Elimination of Organic Pollutants and Metallic Trace Elements by Adsorption: Case of Methylene Blue and Cadmium Ions, Chemical Science International Journal, 2020, 29, 37-51.

- S.P. Sadia, O. Kambiré, C.Q-M Gnamba, L.A.G. Pohan, M. Berté, L. Ouattara, Mineralization of Wastewater from the Teaching Hospital of Treichville by a Combination of Biological Treatment and Advanced Oxidation Processes, Asian Journal of Chemical Sciences, 2021, 10,

-10.

- S. Singh, A. Kumar, H. Gupta, Activated banana peel carbon: a potential adsorbent for Rhodamine B decontamination from aqueous system, Applied Water Science, 2020, 10, 185.

- M. Abdallah, A. Hijazi, M. Hamieh, M. Alameh, J. Toufaily, H. Ramma, Treatment of industrial wastewater using a natural and biodegradable adsorbent based on Eucalyptus, Journal of Materials and Environmental Science, 2016, 7, 4036-4048.

- K.M. Kifuani, A.K.K. Mayeko, P.N. Vesituluta, B.I. Lopaka, G.E. Bakambo, B.M. Mavinga, J.M. Lunguya, Adsorption d’un colorant basique, Bleu de Méthylène, en solution aqueuse, sur un bioadsorbant issu de déchets agricoles de Cucumeropsis mannii Naudin, International Journal of Biological and Chemical Sciences, 2018, 12, 558-575.

- G.O. El-Sayed, M.M. Yehia, A.A. Asaad, Assessment of activated carbon prepared from corncob by chemical activation with phosphoric acid, Water Resources and Industry, 2014, 7-8, 66–75.

- N.V. Sych, S.I. Trofymenko, O.I. Poddubnaya, M.M. Tsyba, V.I. Sapsay, D.O. Klymchuk, A.M. Puziy, Porous structure and surface chemistry of phosphoric acid activated carbon from corncob, Applied Surface Science, 2012, 261, 75–82.

- V.E. Efeovbokhan, E.E. Alagbe, B. Odika, R. Babalola, T.E. Oladimeji, O.G. Abatan, E.O. Yusuf, Preparation and characterization of activated carbon from plantain peel and coconut shell using biological activators, Journal of Physics: Conference Series, 2019, 1378, 032035.

- O.P. Junior, A.L. Cazetta, R.C. Gomes, É.O. Barizão, I.P.A.F. Souza, A.C. Martins, T. Asefa, V.C. Almeida, Synthesis of ZnCl2-activated carbon from macadamia nut endocarp (Macadamia integrifolia) by microwave-assisted pyrolysis: Optimization using RSM and methylene blue adsorption, Journal of Analytical and Applied Pyrolysis, 2014, 105, 166–176.

- X. Xing, W. Jiang, S. Li, X. Zhang, W. Wang, Preparation and analysis of straw activated carbon synergetic catalyzed by ZnCl2-H3PO4 through hydrothermal carbonization combined with ultrasonic assisted immersion pyrolysis, Waste Management, 2019, 89, 64–72.

- D. Egirani, M.T. Latif, N. Wessey, N.R. Poyi, N. Shehata, Preparation and characterization of powdered and granular activated carbon from Palmae biomass for mercury removal, Applied Water Science, 2011, 11, 10.

- E.B. Nohier, K.E.E. Hisham, M. Hani, High-performance removal of iron from aqueous solution using modified activated carbon prepared from corn cobs and luffa sponge, Desalination and Water Treatment, 2021, 213, 348-357.

- E.A. Abo, Y.A. Yobouet, Y.U. Kouakou, A. Trokourey, Optimisation de la préparation de charbons activés à base d’épis de maïs et caractérisation physico-chimique, International Journal of Innovation and Applied Studies, 2020, 29, 1161-1171.

- A.E. Hamouz, H.S. Hilal, N. Nashaat, M. Zahi, Solid olive waste in environmental cleanup: oil recovery and carbon production for water purification, Journal of Environmental Management, 2007, 84, 83-92.

- CEFIC (Conseil européen de l’industrie chimique), Méthodes de contrôle et d’évaluation des charbons actifs, 1989.

- H.P. Boehm, Some aspects of the surface chemistry of carbon blacks and other carbons, Carbon, 1994, 32, 759-769.

- ASTM D2866-94, Standard Test Method for Total Ash Content of Activated Carbon, 1999.

- Y.U. Kouakou, K.F. Essy, A. Dembélé, Y.S. Brou, S.A. Ello, B.I.M. Gouli, A. Trokourey, Removal of imidacloprid using activated carbon produced from ricinodendron heudelotii shells, Bulletin of Chemical Society of Ethiopia, 2017, 31, 397-409.

- A.C. Ayhan, S. Ömer¸ O.B. Ahinb, S. Cafér, Surface and porous characterization of activated carbon prepared from pyrolysis of biomass by two-stage procedure at low activation temperature and it's the adsorption of iodine, Journal of Analytical and Applied Pyrolysis, 2013, 104, 378-383.

- M. Lingeswarran, A. Farook, R.M. Abdul, N. Eng-Poh, The synthesis and characterization of high purity mixed microporous/mesoporous activated carbon from rice husk using chemical activation with NaOH and KOH, Microporous and Mesoporous Materials, 2014, 197, 316–323.

- A.M.M. Vargas, A.L. Cazetta, C.A. Garcia, J.C.G. Moraes, E.M. Nogami, E. Lenzi, W.F. Costa, V.C. Almeida, Preparation and characterization of activated carbon from a new raw lignocellulosic material: Flamboyant (Delonix regia) pods, Journal of Environmental Management, 2011, 92, 178-184.

- M.S. Shamsuddina, N.R.N. Yusoffa, M.A. Sulaiman, Synthesis and Characterization of Activated Carbon Produced from Kenaf Core Fiber Using H3PO4 Activation, Procedia Chemistry, 2016, 19, 558-565.

- S. Lagergren, Zur Theorie der Sogenannten Adsorption Gelöster Stoffe, Kungliga Svenska Vetenskapsakademiens, Handlingar, 1898, 24,

-39.

- W. Plazinski, J. Dziuba, W. Rudzinski, Modeling of sorption kinetics: the pseudo-second-order equation and the sorbate intraparticle diffusivity, adsorption, 2013, 19, 1055-1064.

- Y.S. HO, removal of copper ions from aqueous solution by tree fern, Water Resources, 2003, 37, 2323-2330.

- N. Barka, K. Ouzaouit, M. Abdennouri, M. Makhfouk, Dried prickly pear cactus (Opuntia ficus indica) cladodes as a low-cost and eco-friendly biosorbent for dyes removal from aqueous solutions, Journal of the Taiwan Institute of Chemical Engineers, 2013, 44, 52–60.

- W.J. Weber, J.C. Morris, Kinetics of Adsorption on Carbon from Solution, American Society of Civil Engineers, 1963, 89, 31-60.

- O. Hamdaoui, E. Naffrechoux, Modeling of adsorption isotherms of phenol and chlorophenols onto granular activated carbon: Part I. Two-parameter models and equations allowing determination of thermodynamic parameters, Journal of Hazardous Materials, 2007, 147, 381-94.

- A.E. Vasu, Studies on the removal of rhodamine b and malachite green from aqueous solutions by Tamarind fruit shells activated carbon, European Journal of Chemistry, 2008, 5, 844-852.

- T.A. Khan, V. Singh, D. Kumar Removal of some basic dyes from artificial textile wastewater by adsorption on Akash kinari coal, Journal of Scientific and Industrial Research, 2004, 63,

-364.

- T.A. Khan, S. Sharma, I. Ali, Adsorption of Rhodamine B dye from aqueous solution onto acid activated mango (Magnifera indica) leaf powder: Equilibrium, kinetic and thermodynamic studies, Journal of Toxicology and Environmental Health Sciences, 2011, 3,

-297.

- T.A. Khan, I. Ali, V.V. Singh, S. Sharma, Utilization of fly ash as low-cost adsorbent for the removal of methylene blue, malachite green, and rhodamine B dyes from textile wastewater, Journal of Environmental Protection Sciences, 2009, 3, 11-22.

- S. Arivoli, M. Thenkuzhali, P.M.D. Prasath, Adsorption of rhodamine B by acid-activated Carbon-Kinetic, thermodynamic and equilibrium studies, Orbital, 2009, 1, 138-155.

- C. Namasivayam, N. Muniasamy, K. Gayatri, M. Rani, K. Ranganathan, Removal of dyes from aqueous solutions by cellulosic waste orange peel, Bioresource Technology, 1996, 57, 37-43.

- C. Namasivayam, R.T. Yamuna, Adsorption of direct red 12 B by biogas residual slurry: Equilibrium and rate processes, Environmental Pollution, 1995, 89, 1-7.

- A.A. Inyinbor, F.A. Adekola, G.A. Olatunji, Adsorption of Rhodamine B Dye from Aqueous Solution on Irvingia gabonensis Biomass: Kinetics and Thermodynamics Studies, South African Journal of Chemistry, 2015, 68, 115–125.

- M. Zamouche, O. Hamdaoui, Sorption of Rhodamine B by Cedar Cone: Effect of Ph and Ionic Strength, Energy Procedia, 2012, 18,

–1239.

- P.P. Gan, S.F.Y. Li, Efficient removal of Rhodamine B using a rice hull-based silica-supported iron catalyst by Fenton-like process, Chemical Engineering Journal, 2013, 229, 351–363.

- E. Rubin, P. Rodriguez, R. Herrero, E.S. De Vicente, Adsorption of Methylene Blue on Chemically Modified Algal Biomass: Equilibrium, Dynamic, and Surface Data, Journal of Chemical and Engineering Data, 2010, 55, 5707–5714.

- Y. Lei, L. Yong-ming, The adsorption mechanism of anionic and cationic dyes by Jerusalem artichoke stalk-based mesoporous activated carbon, Journal of Environmental Chemical Engineering, 2014, 2, 220-229.

- R. Ahmad, R. Kumar, Adsorptive removal of congo red dye from aqueous solution using bael shell carbon, Appl. Surf. Sci., 2010, 257,

-1633.

- Z.Y. Zhang, I.M. O’Hara, G.A. Kent, W.O.S. Doherty, Comparative study on adsorption of two cationic dyes by milled sugarcane bagasse, Industrial Crops, and Products, 2013, 42, 41-49.

- F. Çolak, N. Atar, A. Olgun, Biosorption of acidic dyes from aqueous solution by Paenibacillus macerans: Kinetic, thermodynamic and equilibrium studies, Chemical Engineering Journal, 2009, 150,

-130.

- N. Nasuha, B.H. Hameed, adsorption of methylene blue from aqueous solution onto NaOH-modified rejected tea, Chemical Engineering Journal, 2011, 166, 783-786.