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表面功能化和沉积方法对Cu-BDC表面金属有机框架形成、形态、结晶度及稳定性的影响

Impact of Surface Functionalization and Deposition Method on Cu-BDC surMOF Formation, Morphology, Crystallinity, and Stability.

作者信息

Dhanapala B Dulani, Maglich Dayton L, Anderson Mary E

机构信息

Department of Chemistry, Furman University, Greenville, South Carolina 29613, United States.

出版信息

Langmuir. 2023 Aug 29;39(34):12196-12205. doi: 10.1021/acs.langmuir.3c01505. Epub 2023 Aug 16.

Abstract

For direct integration into device architectures, surface-anchored metal-organic framework (surMOF) thin films are attractive systems for a wide variety of electronic, photonic, sensing, and gas storage applications. This research systematically investigates the effect of deposition method and surface functionalization on the film formation of a copper paddle-wheel-based surMOF. Solution-phase layer-by-layer (LBL) immersion and LBL spray deposition methods are employed to deposit copper benzene-1,4-dicarboxylate (Cu-BDC) on gold substrates functionalized with carboxyl- and hydroxyl-terminated alkanethiol self-assembled monolayers (SAMs). A difference in crystal orientation is observed by atomic force microscopy and X-ray diffractometry based on surface functionalization for films deposited by the LBL immersion method but not for spray-deposited films. Cu-BDC crystallites with a strong preferred orientation perpendicular to the substrate were observed for the films deposited by the LBL immersion method on carboxyl-terminated SAMs. These crystals could be removed upon testing adhesive properties, whereas all other Cu-BDC surMOF film structures demonstrated excellent adhesive properties. Additionally, film stability upon exposure to water or heat was investigated. Ellipsometric data provide insight into film formation elucidating 7 and 14 Å average thicknesses per deposition cycle for films deposited by the immersion method on 11-mercapto-1-undecanol (MUD) and 16-mercaptohexadecanoic acid (MHDA), respectively. In contrast, the films deposited by the spray method are thicker with the same average thickness per deposition cycle (21 Å) for both SAMs. While the spray method takes less time to grow thicker films, it produces similar crystallite structures, regardless of the surface functionalization. This research is fundamental to understanding the impact of deposition method and surface functionalization on surMOF film growth and to provide strategies for the preparation of high-quality surMOFs.

摘要

对于直接集成到器件架构中,表面锚定的金属有机框架(surMOF)薄膜是用于各种电子、光子、传感和气体存储应用的有吸引力的系统。本研究系统地研究了沉积方法和表面功能化对基于铜桨轮的surMOF成膜的影响。采用溶液相逐层(LBL)浸渍和LBL喷雾沉积方法,将苯-1,4-二甲酸铜(Cu-BDC)沉积在用羧基和羟基封端的烷硫醇自组装单分子层(SAMs)功能化的金基底上。通过原子力显微镜和X射线衍射法观察到,基于LBL浸渍法沉积的薄膜,其晶体取向因表面功能化而有所不同,但喷雾沉积的薄膜则没有。在用LBL浸渍法在羧基封端的SAMs上沉积的薄膜中,观察到具有强烈垂直于基底的择优取向的Cu-BDC微晶。在测试粘附性能时,这些晶体可以被去除,而所有其他Cu-BDC surMOF薄膜结构都表现出优异的粘附性能。此外,还研究了薄膜在暴露于水或热时的稳定性。椭偏数据提供了对成膜的深入了解,分别阐明了通过浸渍法在11-巯基-1-十一醇(MUD)和16-巯基十六烷酸(MHDA)上沉积的薄膜每个沉积周期的平均厚度为7和14 Å。相比之下,喷雾法沉积的薄膜更厚,两种SAMs的每个沉积周期平均厚度相同(21 Å)。虽然喷雾法生长较厚薄膜所需时间较少,但无论表面功能化如何,它都会产生相似的微晶结构。本研究对于理解沉积方法和表面功能化对surMOF薄膜生长的影响以及为制备高质量的surMOF提供策略至关重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9730/10469448/b3c853974889/la3c01505_0002.jpg

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