原子力显微镜在膜表征和污垢分析中的应用

IF 7.4 Q1 ENGINEERING, ENVIRONMENTAL ACS ES&T engineering Pub Date : 2024-07-18 DOI:10.1021/acsestengg.4c00111
Qi Liu, Xiaoqi Zhu, Baoliang Chen, Xiaoying Zhu
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引用次数: 0

摘要

原子力显微镜(AFM)是扫描探针显微镜(SPM)的一种,具有强大的纳米级成像和力谱分析能力。由于原子力显微镜具有高分辨率、无损检测、环境限制小、通用性强和实时原位分析等优点,已成为表面科学和材料研究领域不可或缺的工具,在膜分离和污垢过程研究中得到了广泛应用。原子力显微镜在表征应用中的巨大优势源于其多样化的针尖功能化技术。本综述涵盖原子力显微镜探针针尖的制备和特殊针尖的改性技术,包括碳纳米管(CNT)探针、金属纳米线探针、胶体探针和单细胞/分子探针。此外,报告还重点介绍了原子力显微镜和探针改性技术在膜技术研究中的应用和进展。随着探针修饰技术的不断发展,原子力显微镜的分析能力将得到进一步拓展,在膜污垢机理研究和防污膜材料开发方面的应用前景将更加广阔。
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Applications of AFM in Membrane Characterization and Fouling Analysis
Atomic force microscopy (AFM), as a type of scanning probe microscopy (SPM), possesses formidable capabilities for nanoscale imaging and force spectroscopy. Due to its advantages such as high resolution, nondestructive detection, minimal environmental restrictions, strong versatility, and real-time in situ analysis, AFM has become an indispensable tool in surface science and materials research, finding extensive applications in the study of the membrane separation and fouling processes. The tremendous advantages of AFM in characterization applications stem from its diverse tip functionalization techniques. This review encompasses the preparation of AFM probe tips and the modification techniques of special tips, including carbon nanotube (CNT) probes, metal nanowire probes, colloidal probes, and single-cell/molecule probes. Furthermore, it highlights the applications and advancements of AFM and probe modification techniques in membrane technology research. With the continuous development of tip modification techniques, the analytical capabilities of AFM will be further expanded, promising broader prospects for its application in the study of membrane fouling mechanisms and the development of antifouling membrane materials.
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来源期刊
ACS ES&T engineering
ACS ES&T engineering ENGINEERING, ENVIRONMENTAL-
CiteScore
8.50
自引率
0.00%
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0
期刊介绍: ACS ES&T Engineering publishes impactful research and review articles across all realms of environmental technology and engineering, employing a rigorous peer-review process. As a specialized journal, it aims to provide an international platform for research and innovation, inviting contributions on materials technologies, processes, data analytics, and engineering systems that can effectively manage, protect, and remediate air, water, and soil quality, as well as treat wastes and recover resources. The journal encourages research that supports informed decision-making within complex engineered systems and is grounded in mechanistic science and analytics, describing intricate environmental engineering systems. It considers papers presenting novel advancements, spanning from laboratory discovery to field-based application. However, case or demonstration studies lacking significant scientific advancements and technological innovations are not within its scope. Contributions containing experimental and/or theoretical methods, rooted in engineering principles and integrated with knowledge from other disciplines, are welcomed.
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