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天然滑石简便剥离成单独的介孔硅酸镁纳米片用于有效螯合磷酸根和硝酸根离子:表征与高级建模

Facile exfoliation of natural talc into separated mesoporous magnesium silicate nano-sheets for effective sequestration of phosphate and nitrate ions: characterization and advanced modeling.

作者信息

Gaber Walaa, Shehata Nabila, El-Sherbeeny Ahmed M, Al Zoubi Wail, Mehaney Ahmed, Abukhadra Mostafa R

机构信息

Environmental Science and Industrial Development Department, Faculty of Postgraduate Studies for Advanced Sciences, Beni-Suef University, Beni-Suef, Egypt.

Renewable Energy Science and Engineering Department, Faculty of Postgraduate Studies for Advanced Sciences, Beni-Suef University, Beni-Suef, Egypt.

出版信息

Front Chem. 2025 Apr 15;13:1571723. doi: 10.3389/fchem.2025.1571723. eCollection 2025.

DOI:10.3389/fchem.2025.1571723
PMID:40303846
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12037480/
Abstract

Magnesium silicate nano-sheets were synthesized from natural talc by facile exfoliation and delamination methods as exfoliated product (EXTC) of 29.5 nm average pore diamter, enhanced surface area (103 m/g), and adsorption perforamnces. The sucessful development of EXTC particles was followed based on different techniques and applied in effective sequestration of PO and NO ions from water. The EXTC product as adsorbent demonstrates remarkable effectiveness for both PO (257.9 mg/g) and NO (164.2 mg/g) as compared to several studied structures. Depending on the steric analysis of Monolayer equilibrium model, the interface of EXTC highly saturated with interactive receptors for the both ions but with higher abundant for PO (151.5 mg/g) as compared to NO (61.5 mg/g). This resulted in higher aggregation effect during the uptake of NO (4 ions per site) than PO (3 ions per site) which also donate the vertical orientation of these adsorbed ions and operation of multi-ionic sequestration mechanisms. The structure is highly recyclable and of significant safety and cane be applied in its spent or exhausted state as fertilizer. The energetic evaluation considering the Gaussian energy (<8.5 kJ/mol) as well as the sequestration energy (<4 kJ/mol), suggested the predominant impact of physical mechanisms (hydrogen bonds and electrostatic attraction), in addition to the impact of the weak chemical complexation. Furthermore, the thermodynamic functions declare the retention of these ions into the framework of EXTC by exothermic and spontaneous reactions.

摘要

通过简便的剥离和分层方法,由天然滑石合成了硅酸镁纳米片,作为剥落产物(EXTC),其平均孔径为29.5纳米,比表面积增大(103平方米/克),且具有吸附性能。基于不同技术对EXTC颗粒的成功研发进行了跟踪,并将其应用于从水中有效螯合磷酸根离子和硝酸根离子。与几种研究结构相比,作为吸附剂的EXTC产品对磷酸根离子(257.9毫克/克)和硝酸根离子(164.2毫克/克)均显示出显著的有效性。根据单层平衡模型的空间分析,EXTC的界面对于这两种离子都高度饱和有相互作用受体,但与硝酸根离子(61.5毫克/克)相比,磷酸根离子(151.5毫克/克)的含量更高。这导致在摄取硝酸根离子(每个位点4个离子)期间比磷酸根离子(每个位点3个离子)有更高的聚集效应,这也表明了这些吸附离子的垂直取向以及多离子螯合机制的运行。该结构具有高度可回收性,安全性高,并且在其耗尽或用尽状态下可用作肥料。考虑到高斯能量(<8.5千焦/摩尔)以及螯合能量(<4千焦/摩尔)的能量评估表明,除了弱化学络合的影响外,物理机制(氢键和静电吸引)起主要作用。此外,热力学函数表明这些离子通过放热和自发反应保留在EXTC的框架内。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0a19/12037480/8a1997c36be5/fchem-13-1571723-g010.jpg
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