Looks lovely!
31.01.2026 11:50
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Looks lovely!
While there's great software for fitting PDFs, there's a lack of software to quickly and simply simulate PDFs. This is especially useful when trying to understand measured PDFs without wanting to do any refienments. To fill this gap, I developed a little tool called xPDFsim: xpdfsim.readthedocs.io
This method could be interesting since it offers a way to manipulate the local coordination environment in MOF glasses. Furthermore, we showed that the addition phenanthroline reduces the connectivity of the corresponding ZIF glasses, offering a unique way to manipulate the topology of glassy MOFs.
IR spectroscopy shows that in these resulting glasses, phenanthroline coordinates to the Co(II) nodes of the ZIF. Counterintuitively, HERDF-XANES shows us that these nodes are 5-fold instead of 6-fold coordinated. The phenanthroline therefore leads to a ligand substitution reaction in the MOF-melt.
Specifically, we let ZIFs react with the chelating ligand phenanthroline. Heating and subsequent cooling of a mixture of these two components leads to the formation of homogenous glasses. We showed that this not only works for meltable ZIFs, but also for the usually non-meltable ZIF-12.
Meltable MOFs are unique in many ways. In our new preprint we show that you can let molten MOFs react with an organic ligand and obtain some interesting glasses. 🔍 A highly collaborative effort.
doi.org/10.26434/che...
Wow, 58% of all secondary schools in Australia is really impressive. Great work!
Sodium-Ion-Modified Zeolitic Imidazolate Framework Glasses https://dx.doi.org/10.26434/chemrxiv-2025-3m7vv?rft_dat=source%3Ddrss