Surface functionalization of cellulose nanocrystals derived from waste newspaper for highly efficient Mn (VII) sorption

IF 5.7 3区环境科学与生态学 Q1 WATER RESOURCES

Applied Water Science Pub Date : 2025-07-12 DOI:10.1007/s13201-025-02565-4

F. M. Mohamed, Mohamed R. El-Aassar, B. Y. Eweida, A. M. Abdullah, H. A. Hamad, M. F. Alrakshy, Mohamed. Abdel Rafea, R. E. Khalifa

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Abstract

This study aims to produce functionalized cellulose nanocrystals (FCNCs) by preparing and functionalizing cellulose nanocrystals (CNCs) from eco-friendly newspapers utilizing a straightforward two-step reaction with an anionic polymer (poly hydrex 6161). FCNCs' structure is described using FTIR, XRD, and SEM. A pseudo-second-order model was used to describe the sorption kinetics of Mn(VII) onto FCNCs, and the results of the linear and nonlinear regression analyses agreed well (R2 > 0.999). Additionally, a number of intervening diffusion types, including intra-particle diffusion, were linked to the regulating phase in the Mn(VII) sorption process. The linear versions of the Freundlich, DR, and Langmuir isotherms were also used to examine the Mn(VII) equilibrium data; the results showed that the Langmuir fits the data better, with an R2 value of 0.9981. This validates the uniform properties of Mn(VII) sorption on the surface of FCNCs with exceptional removal capacities (qmax = 384.615) in both linear and nonlinear modes, in an orderly mode. The spontaneous and endothermic nature of the Mn(VII) sorption process at 288–328 K was confirmed by the thermodynamic parameters ΔH°, ΔS°, and ΔG°. On the other hand, the E value of 1461 kJ mol⁻¹according to D-R isotherm calculation, which was greater than 8 kJ mol⁻¹, indicated chemisorption. To ascertain the adsorption mechanism on the FCNCs, techniques such as ion exchange, pore filling, complexation interaction, and electrostatic interaction can be employed. The hybrid FCNCs were able to easily execute at least six adsorption–desorption recycles. The hybrid composite's unique characteristics make it a very promising enhanced adsorbent with great promise for heavy metal removal in wastewater treatment on an industrial scale.

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废纸纤维素纳米晶体表面功能化对锰（VII）的高效吸附

本研究旨在通过与阴离子聚合物（聚羟基6161）进行直接的两步反应，从环保报纸中制备和功能化纤维素纳米晶体（CNCs），从而生产功能化纤维素纳米晶体（FCNCs）。利用FTIR、XRD和SEM对FCNCs的结构进行了表征。采用拟二阶模型描述锰（VII）在FCNCs上的吸附动力学，线性和非线性回归分析结果吻合良好（R2 > 0.999）。此外，许多介入扩散类型，包括颗粒内扩散，与Mn（VII）吸附过程中的调节相有关。Freundlich、DR和Langmuir等温线的线性版本也用于检查Mn（VII）平衡数据；结果表明，Langmuir拟合数据较好，R2值为0.9981。这验证了具有特殊去除能力（qmax = 384.615）的FCNCs在线性和非线性模式下表面Mn（VII）吸附的均匀性，并且在有序模式下。热力学参数ΔH°，ΔS°和ΔG°证实了在288 ~ 328 K下Mn（VII）吸附过程的自发和吸热性质。另一方面，根据D-R等温线计算，E值为1461 kJ mol−1，大于8 kJ mol−1，表明存在化学吸附。为了确定FCNCs的吸附机理，可以采用离子交换、孔填充、络合作用和静电相互作用等技术。混合FCNCs能够轻松地执行至少六次吸附-解吸循环。混合复合材料的独特特性使其成为一种非常有前途的增强型吸附剂，在工业规模的废水处理中具有很大的重金属去除前景。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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