Impact of the synthetic conditions on the morphology and crystallinity of FDMOF-1(Cu) thin films.
Cryst. Growth Des. , Volume 20 - Issue 8 p. 5302- 5309
Metal-organic frameworks (MOFs) have attracted a lot of interest for their numerous properties. However they are usually obtained as a powder (bulk) or as single crystals, which complicates their implementation into devices that could further exploit these properties. The development of Surface Anchored MOFs (SURMOFs), allowed to synthesize MOFs’ thin films chemisorbed to a substrate, creating a viable solution to the device integration problem. Yet, the fundamental understanding of the mechanisms governing their growth remains limited and the systematic optimization of synthetic parameters is tedious. More studies on SURMOFs growth are needed before MOF-based devices become the norm. In this paper, a pillared-layer MOF with fluorinated terephthalate linkers, Cu2(fbdc)2(dabco) or F-DMOF-1(Cu), was synthesized on functionalized gold surfaces using a layer-by-layer method of Liquid Phase Epitaxy (LPE). The effects of temperature, linker concentration, type of surface functionalization and sonication during the rinsing step on coverage, film morphology and crystal orientation were studied. We found that the concentration of the linker has a strong impact on the morphology of the crystallites formed as well as on the surface coverage. It was noticed that the crystalline orientation is not only governed by the functionalization of the substrate, supporting the hypothesis that SURMOF thin films can switch their crystalline orientation during growth. This study adds information on which variables affect the formation of the first layers of a prototypical SURMOF.
|General Materials Science, General Chemistry, Condensed Matter Physics|
|Cryst. Growth Des.|
|Organisation||EUV Photoresists-Former Group|
Lugier, O, Pokharel, U, & Castellanos, S. (2020). Impact of the synthetic conditions on the morphology and crystallinity of FDMOF-1(Cu) thin films. Cryst. Growth Des., 20(8), 5302–5309. doi:10.1021/acs.cgd.0c00529