AI Article Synopsis
- Thin films made from organic chromophores and zinc-based secondary building units (SBUs) are promising for enhancing optoelectronic properties through controlled interchromophore interactions.
- The synthesis of these films using layer-by-layer spin-coating techniques with specific linkers (HBDC and HBPDC) shows that the resulting structures greatly differ based on the linker type and metal-to-linker ratio.
- Density functional theory (DFT) helps in understanding the structures of these films, which is essential for rationally engineering their properties.
Article Abstract
Thin films of crystalline solids with substantial free volume built from organic chromophores and metal secondary building units (SBUs) are promising for engineering new optoelectronic properties through control of interchromophore coupling. Zn-based SBUs are especially relevant in this case because they avoid quenching the chromophore's luminescence. We find that layer-by-layer spin-coating using Zn acetate dihydrate and benzene-1,4-dicarboxylic acid (HBDC) and biphenyl-4,4'-dicarboxylic acid (HBPDC) linkers readily produces crystalline thin films. However, analysis of the grazing-incidence wide-angle X-ray scattering (GIWAXS) data reveals the structures of these films vary significantly with the linker, and with the metal-to-linker molar ratio used for fabrication. Under equimolar conditions, HBPDC creates a type of structure like that proposed for SURMOF-2, whereas HBDC generates a different metal-hydroxide-organic framework. Large excess of Zn ions causes the growth of layered zinc hydroxides, irrespective of the linker used. Density functional theory (DFT) calculations provide structural models with minimum total energy that are consistent with the experimentally observed diffractograms. In the broader sense, this work illustrates the importance in this field of careful structure determination, e. g., by utilizing GIWAXS and DFT simulations to determine the structure of the obtained crystalline metal-organic thin films, such that properties can be rationally engineered and explained.
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| http://dx.doi.org/10.1002/chem.202400565 | DOI Listing |
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