Kai Volgmann scite author profile

Gas transport through metal-organic framework membranes (MOFs) was switched in situ by applying an external electric field (E-field). The switching of gas permeation upon E-field polarization could be explained by the structural transformation of the zeolitic imidazolate framework ZIF-8 into polymorphs with more rigid lattices. Permeation measurements under a direct-current E-field poling of 500 volts per millimeter showed reversibly controlled switching of the ZIF-8 into polar polymorphs, which was confirmed by x-ray diffraction and ab initio calculations. The stiffening of the lattice causes a reduction in gas transport through the membrane and sharpens the molecular sieving capability. Dielectric spectroscopy, polarization, and deuterium nuclear magnetic resonance studies revealed low-frequency resonances of ZIF-8 that we attribute to lattice flexibility and linker movement. Upon E-field polarization, we observed a defibrillation of the different lattice motions.

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The adsorption of CO2 and CO on Ca and CaO films studied with MIES, UPS and XPS

Voigts

Bebensee

Dahle

et al. 2009

Surface Science

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Amorphous, turbostratic and crystalline carbon membranes with hydrogen selectivity

Wollbrink

Volgmann

Koch

et al. 2016

Carbon

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Solid-State NMR to Study Translational Li Ion Dynamics in Solids with Low-Dimensional Diffusion Pathways

Volgmann

Epp

Langer

et al. 2017

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Fundamental research on lithium ion dynamics in solids is important to develop functional materials for, e.g. sensors or energy storage systems. In many cases a comprehensive understanding is only possible if experimental data are compared with predictions from diffusion models. Nuclear magnetic resonance (NMR), besides other techniques such as mass tracer or conductivity measurements, is known as a versatile tool to investigate ion dynamics. Among the various time-domain NMR techniques, NMR relaxometry, in particular, serves not only to measure diffusion parameters, such as jump rates and activation energies, it is also useful to collect information on the dimensionality of the underlying diffusion process. The latter is possible if both the temperature and, even more important, the frequency dependence of the diffusion-induced relaxation rates of actually polycrystalline materials is analyzed. Here we present some recent systematic relaxometry case studies using model systems that exhibit spatially restricted Li ion diffusion. Whenever possible we compare our results with data from other techniques as well as current relaxation models developed for 2D and 1D diffusion. As an example, 2D ionic motion has been verified for the hexagonal form of LiBH

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The interaction of oxygen molecules with iron films studied with MIES, UPS and XPS

2010

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On the Better Understanding of the Surprisingly High Performance of Metal−Organic Framework-Based Mixed-Matrix Membranes Using the Example of UiO-66 and Matrimid

Friebe

Mundstock

Volgmann

et al. 2017

ACS Appl. Mater. Interfaces

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Metal-organic frameworks feature a certain framework flexibility, mainly due to a linker mobility inside the lattice. The latter is responsible for effects like breathing or gate-opening, thus making predictions of the sorption and diffusion behavior quite difficult. Permeation measurements on supported UiO-66 membranes at low temperatures and on polymer-coated UiO-66 membrane layers as well as H NMR line shape studies and nitrogen sorption measurements of UiO-66 with deuterated linkers in Matrimid as mixed-matrix membranes (MMM) indicate that the 2-site 180° flips (π-flips) of the aromatic ring are hindered by the presence of (i) the surrounding polymer Matrimid and (ii) residual solvent molecules, thus giving profound insights into the molecular understanding of gas transport through metal-organic framework-based MMMs.

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The interaction of H2O molecules with iron films studied with MIES, UPS and XPS

2012

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Local determination of the amount of integration of an atom into a crystal surface

et al. 2014

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Collective vibrational modes of crystal lattices, called phonons, determine fundamental material properties, such as their thermal and electrical conductivities. Bulk phonon spectra are influenced by point defects. More recently, the importance of phonons on nanostructures has come into the focus of attention. Here we show a spatially resolved phonon spectra of point defects that reveal distinctly different signatures for a cavity alone and an impurity atom fully integrated into the surface as opposed to one placed into a cavity. The spectra are indicative for delocalized phonons and localized vibrations, respectively, as confirmed by theory.

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Kai Volgmann

Defibrillation of soft porous metal-organic frameworks with electric fields

The adsorption of CO2 and CO on Ca and CaO films studied with MIES, UPS and XPS

Amorphous, turbostratic and crystalline carbon membranes with hydrogen selectivity

Solid-State NMR to Study Translational Li Ion Dynamics in Solids with Low-Dimensional Diffusion Pathways

The interaction of oxygen molecules with iron films studied with MIES, UPS and XPS

On the Better Understanding of the Surprisingly High Performance of Metal−Organic Framework-Based Mixed-Matrix Membranes Using the Example of UiO-66 and Matrimid

The interaction of H2O molecules with iron films studied with MIES, UPS and XPS

Local determination of the amount of integration of an atom into a crystal surface

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