Our work on MOFs as chiral stationary phases has been highlighted in Chemical & Engineering News. Check it out!
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Natalia´s work is already available at JACS. The design of metalorganic frameworks with chemical stability is limited to metal connectors as carboxylates or azolates. Inspired by the chemistry of siderophores, we report a hydroxamate titanium framework that combines photoactivity with hydrolytic stability. The straightforward derivatization of carboxylic linkers with hydroxamic groups might represent an alternative route to broaden the family of reticular solids. Check it out!
Our work in collaboration with J.R. Galan-Mascaros group at ICIQ has been published in JACS. This work highlights the versatility and efficiency of TAMOF-1 as a chiral stationary phase capable of separating a variety of model racemic mixtures, including drugs, in a wide range of solvents of different polarity. This performance arises from the combination of chiral channels and weak binding sites allowing for low-energy separation of enantiomers, without any strong binding/recognition sites. Click for more info
Carlos visited KU Leuven (Prof. Dirk De Vos and Francisco García Cirujano) to present the last results of the team on charge transport and photoactivity in MOFs.
MOF School held in Lake Como (Italy) with an amazing line up of invited speakers and presented her recent work on the nanosizing of titanium frameworks and photoactive Zr(IV) MOFs. They also had time to make new friends!
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Alexei Ganin, Lecturer at the University of Glasgow, visited us to share a few days and present the last advances of his team on using solid state electrocatalysts for hydrogen evolution from water. Thanks for visiting!
Fran is originally from Elche. He joins the team with a La Caixa Junior Leader Fellowship Fellowship after a Postdoc stay in KU Leuven with Dirk De Vos. He will focus on the development of high performance metal-organic framework catalysts.
Rubén graduated in Chemistry at the Universidad de Valencia in 2019. He will be exploring the electrocatalytic properties and potential of some of the materials developed @FuniMAT in energy conversion.
Ana graduated in Chemistry in 2018 after an Erasmus stay at The University of Manchester. She will be exploring new methodologies for the flow synthesis of pharmaceuticals with MOF catalysts.
Víctors study on the nanostructuration of spin crossover coordination polymers has just been published in Chemical Science. A collaborative endeavor with contributions from FuniMat, RTMM and SMolMat groups of the ICMol, together with Unité Mixte de Physique CNRS/Thales and DEIMOS beamline of the Soleil synchrotron. Below a critical thickness, the completeness of the spin transition is sharply affected due to an equally dramatic film microstructure transition from fully coalesced layer into segregated nanocrystalline particles. This careful examination of the spin crossover properties of films at the nanoscale provides relevant information for scientists working towards the integration of this switchable materials into nanometric electronic and spintronic devices. For more details take a look at the full text here