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RESEARCH PRODUCT
Solving the Hydrogen and Lithium Substructure of Poly(triazine imide)/LiCl Using NMR Crystallography
Charlotte MartineauKilian BärwinkelReinhard B. NederUte KolbMaria B. MeschJürgen SenkerFrancis TaulelleYaşar Krysiaksubject
HydrogenOrganic Chemistrychemistry.chemical_element02 engineering and technologyGeneral ChemistryNuclear magnetic resonance spectroscopyHydrogen atom010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesCatalysis0104 chemical sciencesIonchemistry.chemical_compoundCrystallographychemistryElectron diffractionLithium chloride0210 nano-technologyImideTriazinedescription
Poly(triazine imide) with incorporated lithium chloride has recently attracted substantial attention due to its photocatalytic activity for water splitting. However, an apparent H/Li disorder prevents the delineation of structure–property relationships, for example, with respect to band-gap tuning. Herein, we show that through a combination of one- and two-dimensional, multinuclear solid-state NMR spectroscopy, chemical modelling, automated electron diffraction tomography, and an analysis based on X-ray pair distribution functions, it is finally possible to resolve the H/Li substructure. In each cavity, one hydrogen atom is bound to a bridging nitrogen atom, while a second one protonates a triazine ring. The two lithium ions within each cavity are positioned between two nitrogen atoms of neighbouring triazine rings. The thereby induced local dipole moments cause slight buckling of the framework and lateral displacements of the Cl− ions at a coherence length below 2 nm. Nevertheless, the average structure conforms to space group P212121. In this way, we demonstrate that, in particular, the above-mentioned techniques allow for smart interplay in delineating the real structure of PTI/LiCl.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2016-08-03 | Chemistry - A European Journal |