Christian Lieder scite author profile

A modular approach for the synthesis of highly ordered porous and chiral auxiliary (Evans auxiliary) decorated metal-organic frameworks is developed. Our synthesis strategy, which uses known porous structures as model materials for incorporation of chirality via linker modification, can provide access to a wide range of porous materials suitable for enantioselective separation and catalysis. Chiral analogues of UMCM-1 have been synthesized and investigated for the enantioseparation of chiral compounds in the liquid phase and first promising results are reported.

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Adsorbate Effect on AlO₄(OH)₂Centers in the Metal−Organic Framework MIL-53 Investigated by Solid-State NMR Spectroscopy

Lieder

Opelt

Dyballa

et al. 2010

J. Phys. Chem. C

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1H and 27Al MAS NMR spectroscopies have been applied for studying the effect of water molecules, nitrogen bases, and o-xylene on the hydroxyl protons of bridging AlOH groups and framework aluminum atoms in the metal−organic framework (MOF) MIL-53. For water molecules adsorbed on the low-temperature form MIL-53lt, two 1H MAS NMR signals were found indicating the formation of different O−H···O hydrogen bonds to neighboring oxygen atoms, such as to carboxylic oxygens. Upon adsorption of the nitrogen bases acetonitrile, ammonia, and pyridine, a linear increase of the quadrupole coupling constant, C Q, of the framework aluminum atoms in dehydrated MIL-53 from C Q = 8.5 MHz (unloaded material) to maximum 10.8 MHz (pyridine-loaded material) as a function of the proton affinity of the adsorbates was observed. Adsorption of o-xylene led to three stepwise changes of the quadrupole coupling constants, C Q, of framework aluminum atoms in dehydrated MIL-53. While the first two stepwise changes of the C Q values (C Q = 8.0 and 8.7 MHz) occur for o-xylene loadings of lower than 4 molecules per unit cell and for all AlO4(OH)2 centers, the third change of the C Q value to 9.4 MHz was observed for o-xylene loadings higher than 4 o-xylene molecules per unit cell and for maximum 50% of the framework aluminum atoms. This third adsorbate-induced change of the C Q value of framework aluminum atoms in MIL-53 is accompanied by a significant decrease of the adsorbate mobility.

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Quantitative solid-state NMR investigation of V5+ species in VPO catalysts upon sequential selective oxidation of n-butane

Frey

Lieder

Schölkopf

et al. 2010

Journal of Catalysis

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Infrared spectra of adsorbed propyne*1

Smith

Brainard

Grant

et al. 1974

Journal of Catalysis

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Eignung von metallorganischen Gerüstverbindungen als stationäre Phase in der Hochleistungsflüssigchromatographie (HPLC)

Lieder¹

2017

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