Corrigendum to “synthesis of curcuma longa doped cellulose grafted hydrogel for catalysis, bactericidal and insilico molecular docking analysis” [Int. J. Biol. Macromol, 253 (2023) 126827] (International Journal of Biological Macromolecules (2023) 253(P4), (S0141813023037248), (10.1016/j.ijbiomac.2023.126827))

The authors regret. Fig. 5 should be read along with unzoomed FESEM images provided in corresponding figure for better understanding.[Figure presented] The value of 72.21 % of optimum scavenger efficacy for Cur/C-P (25 mg) should be read as 81.41 % throughout the manuscript. The following references have PubPeer comments should be replaced with provided ones. Karchoubi, F., Ghotli, R.A., Pahlevani, H. and Salehi, M.B., 2024. New insights into nanocomposite hydrogels; a review on recent advances in characteristics and applications. Advanced Industrial and Engineering Polymer Research, 7(1), pp.54–78. Satchanska, G., Davidova, S. and Petrov, P.D., 2024. Natural and synthetic polymers for biomedical and environmental applications. Polymers, 16(8), p.1159. Lu, P., Ruan, D., Huang, M., Tian, M., Zhu, K., Gan, Z. and Xiao, Z., 2024. Harnessing the potential of hydrogels for advanced therapeutic applications: Current achievements and future directions. Signal transduction and targeted therapy, 9(1), p.166. Zakaria, H., El Kurdi, R. and Patra, D., 2022. Curcumin-PLGA based nanocapsule for the fluorescence spectroscopic detection of dopamine. RSC advances, 12(43), pp.28245–28,253. The authors would like to apologise for any inconvenience caused.