用于形态驱动的阴离子染料吸附去除和光氧化降解的双功能 CoNi-LDH 空心多孔球

IF 8.6 2区 工程技术 Q1 ENERGY & FUELS Sustainable Materials and Technologies Pub Date : 2024-08-13 DOI:10.1016/j.susmat.2024.e01089
Muhammad Faheem , Muhammad Usama Naeem , Muhammad Junaid , Usman Ali , Adeel Afzal , Kun Wang , Jing Qian , Xiaodong Chen , Lingliang Long
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引用次数: 0

摘要

层状双氢氧化物(LDHs)是一类低成本的潜在有机污染物分离吸附剂,但对环境条件下 LDH 中空形貌调控有机染料分离的深入研究仍然缺乏。针对这一空白,研究人员合成了不同形态和孔隙率的 ZIF-67、块状-CoNi-LDH 和 HPS-CoNi-LDH 材料,并对其在染料分离过程中的应用进行了研究。选择甲基橙(MO)、刚果红(CR)、亚甲基蓝(MB)和罗丹明 B(Rhb)染料作为染料污染物模型。光谱和结构分析表明,与 Bulk-CoNi-LDH 相比,HPS-CoNi-LDH 具有较少聚集的二维纳米片、163.2 m2/g 的高 BET 表面积、12.29 nm 的大孔径、更大的表面正电荷(27.5 mV)、优异的光学(2.18 eV)和电荷分离能力。因此,它在 90 分钟内对甲基橙(15 ppm)的去除率高达 92.6%,动力学速率为 3.0×10-2 min-1,优于去除率分别为 71.7% 和 40.8%、动力学速率分别为 1.35×10-2 和 0.5×10-2 min-1 的 Bulk-CoNi-LDH 和 ZIF-67。ZIF-67 的去除效率和动力学速率较低主要是由于其较小的孔径(1.16 nm)和表面封闭电荷(6.13 mV)。此外,在环境条件下,HPS-CoNi-LDH 表现出极好的选择性(ppm 级)和出色的可回收性。本文讨论了光催化反应的机理。这些研究结果表明,中空形态的 LDH 结构可以成为选择性废水处理的理想候选材料,并可在可持续条件下使用,这为其他重要的阴离子微污染物修复指明了方向。
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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Dual-function CoNi-LDH hollow porous spheres for morphology-driven adsorptive removal and photo-oxidative degradation of anionic dyes

The layered double hydroxides (LDHs) emerged as a class of low-cost potential adsorbents for organic pollutant separation, whereas the deep study of organic dye separation regulated by LDH hollow morphology under ambient conditions is still lacking. To address this gap, ZIF-67, Bulk-CoNi-LDH, and HPS-CoNi-LDH materials of different morphology and porosity were synthesized and investigated in the dye separation process. Methyl orange (MO), congo-red (CR), methylene blue (MB), and rhodamine B (Rhb) dyes were selected as model dye pollutants. The spectroscopic and structural analysis reveals the HPS-CoNi-LDH exhibits less-aggregated 2D nanosheets, high BET surface area of 163.2 m2/g, large pore size of 12.29 nm, greater positive surface charges (27.5 mV), superior optical (2.18 eV), and charge-separation capabilities as compared to Bulk-CoNi-LDH, Which provides potential sites for adsorptive and photo-degradation for anionic dyes under natural sunlight. Therefore, it achieves a remarkable removal efficiency of 92.6% for methyl orange (15 ppm) with a superior kinetic rate of 3.0×10−2 min−1 within 90 min, outperforming Bulk-CoNi-LDH and ZIF-67 having removal efficiency of 71.7% and 40.8%, and kinetic rate of 1.35×10−2 and 0.5×10−2 min−1, respectively. Poor removal efficiency and kinetic by ZIF-67 was mainly due to its smaller pore size (1.16 nm) and surface-confined charges (6.13 mV). Additionally, HPS-CoNi-LDH exhibits superb selectivity (at a ppm level) and excellent recyclability under ambient conditions. The mechanism of photo-catalytic reaction is discussed. These results delineate the hollow morphological LDH structure could be a worthy candidate for selective wastewater treatment and useful for sustainable conditions, which points the way to other crucial anionic micropollutant remediation.

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来源期刊
Sustainable Materials and Technologies
Sustainable Materials and Technologies Energy-Renewable Energy, Sustainability and the Environment
CiteScore
13.40
自引率
4.20%
发文量
158
审稿时长
45 days
期刊介绍: Sustainable Materials and Technologies (SM&T), an international, cross-disciplinary, fully open access journal published by Elsevier, focuses on original full-length research articles and reviews. It covers applied or fundamental science of nano-, micro-, meso-, and macro-scale aspects of materials and technologies for sustainable development. SM&T gives special attention to contributions that bridge the knowledge gap between materials and system designs.
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