Porous Metal Organic Framework (MOF) derived dimorphic (n-ZnO/p-NiO) Z-scheme heterojunction anchored with MWCNTs (ternary nano-architecture): A novel approach for optimization of photodegradation mechanism and kinetics of Congo red (CR) dye

IF 2.9 3区 物理与天体物理 Q3 NANOSCIENCE & NANOTECHNOLOGY
P. Abisha, Jinitha C.G, S. Sonia
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引用次数: 0

Abstract

Global efforts to combat water pollution, especially from organic dyes like Congo red, emphasize the use of advanced nanomaterials for sewage purification. Metal-Organic Frameworks (MOFs), known for their crystalline structures and versatile properties, have become pivotal in wastewater treatment research. Integrating MWCNTs into MOF derived composite nanostructures is a strategic advancement, boosting the efficiency of photocatalytic systems and addressing environmental concerns. This study details the synthesis of a novel Z-scheme heterojunction nanocomposite (n-ZnO/p-NiO) incorporating multi-walled carbon nanotubes (MWCNTs), achieved via a solvothermal method using metal-organic framework (MOF) as a template. The study uses XRD, FTIR, FESEM, BET, UV, and PL for comprehensive nanocomposite characterization, offering insights into its structural, morphological, and optical properties. The resultant nanocomposite displays high surface area, sturdy pore arrangement, and consistent morphology. MWCNTs influence crystal growth and optical absorption, enhancing surface hydroxyl group concentration and acting as electron acceptors. This results in decreased photo oxidation and improved overall stability under light exposure in the composite. The composite achieves 92 % Congo red degradation in 60 min under UV light, showcasing superior dye adsorption capacity. This underscores its potential as an efficient photocatalyst for environmental remediation and wastewater treatment.

Abstract Image

多孔金属有机框架(MOF)衍生的二态(n-ZnO/p-NiO)Z型异质结与 MWCNTs(三元纳米结构)的锚定:优化刚果红(CR)染料光降解机理和动力学的新方法
全球都在努力消除水污染,尤其是刚果红等有机染料造成的污染,并强调使用先进的纳米材料来净化污水。金属有机框架(MOFs)以其晶体结构和多功能特性而著称,已成为污水处理研究的关键。将 MWCNTs 集成到 MOF 衍生的复合纳米结构中是一项战略性进步,可提高光催化系统的效率并解决环境问题。本研究详细介绍了一种新型 Z 型异质结纳米复合材料(n-ZnO/p-NiO)的合成,该复合材料以金属有机框架(MOF)为模板,通过溶解热法合成,其中加入了多壁碳纳米管(MWCNTs)。研究采用 XRD、FTIR、FESEM、BET、UV 和 PL 对纳米复合材料进行了全面表征,深入了解了其结构、形态和光学特性。结果表明,纳米复合材料具有高比表面积、坚固的孔隙排列和一致的形态。MWCNTs 可影响晶体生长和光学吸收,提高表面羟基浓度并充当电子受体。这就减少了光氧化,提高了复合材料在光照射下的整体稳定性。该复合材料在紫外光下 60 分钟内实现了 92% 的刚果红降解,显示出卓越的染料吸附能力。这凸显了它作为一种高效光催化剂在环境修复和废水处理方面的潜力。
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来源期刊
CiteScore
7.30
自引率
6.10%
发文量
356
审稿时长
65 days
期刊介绍: Physica E: Low-dimensional systems and nanostructures contains papers and invited review articles on the fundamental and applied aspects of physics in low-dimensional electron systems, in semiconductor heterostructures, oxide interfaces, quantum wells and superlattices, quantum wires and dots, novel quantum states of matter such as topological insulators, and Weyl semimetals. Both theoretical and experimental contributions are invited. Topics suitable for publication in this journal include spin related phenomena, optical and transport properties, many-body effects, integer and fractional quantum Hall effects, quantum spin Hall effect, single electron effects and devices, Majorana fermions, and other novel phenomena. Keywords: • topological insulators/superconductors, majorana fermions, Wyel semimetals; • quantum and neuromorphic computing/quantum information physics and devices based on low dimensional systems; • layered superconductivity, low dimensional systems with superconducting proximity effect; • 2D materials such as transition metal dichalcogenides; • oxide heterostructures including ZnO, SrTiO3 etc; • carbon nanostructures (graphene, carbon nanotubes, diamond NV center, etc.) • quantum wells and superlattices; • quantum Hall effect, quantum spin Hall effect, quantum anomalous Hall effect; • optical- and phonons-related phenomena; • magnetic-semiconductor structures; • charge/spin-, magnon-, skyrmion-, Cooper pair- and majorana fermion- transport and tunneling; • ultra-fast nonlinear optical phenomena; • novel devices and applications (such as high performance sensor, solar cell, etc); • novel growth and fabrication techniques for nanostructures
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