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Ghasemi, F., Safarpour, A., Shahzadeh Fazeli, S.A., Karan, R. and Amoozegar, M.A. (2025) Optimization of Copper Bioremoval from Hypersaline Environments by the Halophilic Archaeon Halalkalicoccus sp. Dap5 via Response Surface Methodology. Scientific Reports, 15, Article No. 31656.
https://doi.org/10.1038/s41598-025-17576-z

has been cited by the following article:

• TITLE: Biosorption of Copper by Rhizopus arrhizus and Comparison with Other Biosorbents/Adsorbents: A Critical Review

  AUTHORS: Recep İleri

  KEYWORDS: Copper, Rhizopus arrhizus, Biosorption, Comparison, Critical Review

  JOURNAL NAME: Open Access Library Journal, Vol.13 No.5, May 29, 2026

  ABSTRACT: In synthetic copper solutions (10 mg/L), freely dead Rhizopus arrhizus achieved a removal yield of 89% within the first 10 minutes and reached 98% at equilibrium (60 minutes). Dead immobilised biomass can be used for the removal of copper from solutions of 1 - 100 mg/L initial concentration. The fungus Rhizopus arrhizus (immobilized dead form) 59.7 is mg Cu/g and 19.46 mg Cu/g for living form. The saturation uptake capacity was found to be 40 - 94 mg Cu/g for immobilised dead cells compared to 100 - 172 mg Cu/g for freely suspended dead cells, ranges depending on the process parameters. Use of a real wastewater effluent reduced the biomass copper uptake capacity. The saturation uptake was found to be 23.4 mg Cu (II)/g dry weight for immobilised dead cells compared to 33.8 mg Cu (II)/g dry weight for freely suspended dead cells for real wastewater effluents. Subject AreasBiological Engineering