Chmelik, C., Heinke, L., Kärger, J., Schmidt, W., Shah, D.B., Baten, J.M. Van, ...
Configurational-bias Monte Carlo simulations of the adsorption isotherm for iso-butane (iC4) in MFI zeolite shows a strong inflection at a loading Θ = 4 molecules per unit cell. The consequence of...
1H NMR signal broadening in spectra of alkane molecules adsorbed on MFI-type zeolites (2008)
Romanova, E.E., Krause, C.B., Stepanov, A.G., Wilczok, U., Schmidt, W., Baten, J.M. Van, ...
The anisotropic behavior of C1–C6 alkane molecules adsorbed in MFI zeolite was studied by 1H nuclear magnetic resonance (NMR) using single-pulse excitation, Carr–Purcell–Meiboom–Gill (CPMG)...
Zschiegner, S., Russ, S., Bunde, A., Kärger, J.
We study molecular diffusion in linear nanopores with different types of roughness in the so-called Knudsen regime. Knudsen diffusion represents the limiting case of molecular diffusion in pores,...
Mixture diffusion in zeolites studied by MAS PFG NMR and molecular simulation (2007)
Fernandez, M., Kärger, J., Freude, Dieter, Pampel, André, Van Baten, J. M., Krishna, R.
105
PFG NMR and QENS diffusion study of n-alkane homologues in MFI-type zeolites (2006)
Jobic, H., Schmidt, W., Krause, C. B., Kärger, J.
Recent methodological progress in pulsed field gradient (PFG) NMR and quasi-elastic neutron scattering (QENS) is exploited to enhance the range of diffusion measurement of the series of the n-alkane...
Two-Component Desorption from Anisotropic Pore Networks (2006)
Bräuer, J., Brzank, A., Kärger, J.
This version is available at the following Publisher URL: http://jcp.aip.org
Selective multi-component diffusion measurement in zeolites by pulsed field gradient NMR (2006)
Pampel, André, Engelke, Frank, Galvosas, P., Krause, C., Stallmach, F., Michel, Dieter, ...
90
A remarkable non-monotonical chain-length dependence : diffusion of n-alkanes in zeolites LTA (2005)
Brandani, S., Caro, J., Jobic, H., Krause, C., Kärger, J., Moller, A., ...
Molecular traffic control in single-file networks with fast catalysts (2004)
Brzank, A., Schütz, G. M., Bräuer, P., Kärger, J.
This version is available at the following Publisher URL: http://pre.aps.org
Self-diffusion of polymers in cartilage as studied by pulsed field gradient NMR (2002)
Trampel,R., Schiller,J., Naji,L., Stallmach,F., Kärger,J., Arnold,K.
Pulsed field gradient (PFG) nuclear magnetic resonance (NMR) was used to investigate the self-diffusion behaviour of polymers in cartilage. Polyethylene glycol and dextran with different molecular...
Self-diffusion of polymers in cartilage as studied by pulsed field gradient NMR (2002)
Trampel,R., Schiller,J., Naji,L., Stallmach,F., Kärger,J., Arnold,K.
Pulsed field gradient (PFG) nuclear magnetic resonance (NMR) was used to investigate the self-diffusion behaviour of polymers in cartilage. Polyethylene glycol and dextran with different molecular...
Self-diffusion of polymers in cartilage as studied by pulsed field gradient NMR (2002)
Trampel, R., Schiller, J., Naji, L., Stallmach, F., Kärger, J., Arnold, K.
Pulsed field gradient (PFG) nuclear magnetic resonance (NMR) was used to investigate the self-diffusion behaviour of polymers in cartilage. Polyethylene glycol and dextran with different molecular...
Self-diffusion of polymers in cartilage as studied by pulsed field gradient NMR (2002)
Trampel, Robert, Schiller, J., Naji, L., Stallmach, F., Kärger, J., Arnold, K.
Pulsed field gradient (PFG) nuclear magnetic resonance (NMR) was used to investigate the self-diffusion behaviour of polymers in cartilage. Polyethylene glycol and dextran with different molecular...
Synthesis and characterization of the layered sodium silicate ilerite (2000)
Brenn,U., Ernst,H., Freude,D., Herrmann,R., Jähnig,R., Karge,H. G., ...
Synthesis and characterization of the layered sodium silicate ilerite (2000)
Brenn, U., Ernst, H., Freude, D., Herrmann, R., Jähnig, R., Karge, Hellmut G., ...
A sodium ilerite, molar ratios 1Na2O:8.2SiO2:10.2H2O, was obtained with a good crystalline structure and characterized by several NMR techniques in addition to X-ray diffraction (XRD). The X-ray...