Two-photon photopolymerization and 3D lithographic microfabrication N Fatkullin, T Ikehara, H Jinnai, S Kawata, R Kimmich, T Nishi, ... NMR• 3D Analysis• Photopolymerization, 169-273, 2004 | 573 | 2004 |
Polymer chain dynamics and NMR R Kimmich, N Fatkullin NMR• 3D Analysis• Photopolymerization, 1-113, 2004 | 306 | 2004 |
Emerging technologies for the 3D analysis of polymer structures N Fatkullin, T Ikehara, H Jinnai, S Kawata, R Kimmich, T Nishi, ... NMR• 3D Analysis• Photopolymerization, 115-167, 2004 | 115 | 2004 |
Molecular diffusion on a time scale between nano-and milliseconds probed by field-cycling NMR relaxometry of intermolecular dipolar interactions: Application to polymer melts M Kehr, N Fatkullin, R Kimmich The Journal of chemical physics 126 (9), 094903, 2007 | 100 | 2007 |
Nuclear spin‐lattice relaxation dispersion and segment diffusion in entangled polymers. Renormalized Rouse formalism N Fatkullin, R Kimmich The Journal of chemical physics 101 (1), 822-832, 1994 | 98 | 1994 |
Chain dynamics in entangled polymers: Power laws of the proton and deuteron spin-lattice relaxation dispersions R Kimmich, N Fatkullin, RO Seitter, K Gille The Journal of chemical physics 108 (5), 2173-2177, 1998 | 81 | 1998 |
Theory of field-gradient NMR diffusometry of polymer segment displacements in the tube-reptation model N Fatkullin, R Kimmich Physical Review E 52 (3), 3273, 1995 | 80 | 1995 |
Geometrical restrictions of water diffusion in aqueous protein systems. A study using NMR field-gradient techniques R Kimmich, F Klammler, VD Skirda, IA Serebrennikova, AI Maklakov, ... Applied Magnetic Resonance 4, 425-440, 1993 | 79 | 1993 |
The dipolar-correlation effect on the stimulated echo. Application to polymer melts R Kimmich, E Fischer, P Callaghan, N Fatkullin Journal of Magnetic Resonance, Series A 117 (1), 53-61, 1995 | 76 | 1995 |
Self-diffusion studies by intra-and inter-molecular spin-lattice relaxometry using field-cycling: Liquids, plastic crystals, porous media, and polymer segments R Kimmich, N Fatkullin Progress in Nuclear Magnetic Resonance Spectroscopy 101, 18-50, 2017 | 72 | 2017 |
Field-cycling NMR relaxometry of polymers confined to artificial tubes: verification of the exponent 3/4 in the spin–lattice relaxation dispersion predicted by the reptation model R Kimmich, RO Seitter, U Beginn, M Möller, N Fatkullin Chemical physics letters 307 (3-4), 147-152, 1999 | 72 | 1999 |
Segment diffusion in polymers confined in nanopores: A fringe-field NMR diffusometry study E Fischer, R Kimmich, U Beginn, M Möller, N Fatkullin Physical Review E 59 (4), 4079, 1999 | 67 | 1999 |
Spin diffusion in melts of entangled polymers E Fischer, R Kimmich, N Fatkullin The Journal of chemical physics 106 (23), 9883-9888, 1997 | 64 | 1997 |
Deuteron and proton spin-lattice relaxation dispersion of polymer melts: Intrasegment, intrachain, and interchain contributions M Kehr, N Fatkullin, R Kimmich The Journal of chemical physics 127 (8), 084911, 2007 | 60 | 2007 |
Self-diffusion in polymer solutions and melts AI Maklakov, VD Skirda, NF Fatkullin Kazan Univ, Kazan (in Russian), 1987 | 60 | 1987 |
Mean Square Displacement and Reorientational Correlation Function in Entangled Polymer Melts Revealed by Field Cycling 1H and 2H NMR Relaxometry A Herrmann, B Kresse, M Wohlfahrt, I Bauer, AF Privalov, D Kruk, ... Macromolecules 45 (16), 6516-6526, 2012 | 58 | 2012 |
The confined-to-bulk dynamics transition of polymer melts in nanoscopic pores of solid matrices with varying pore diameter N Fatkullin, R Kimmich, E Fischer, C Mattea, U Beginn, M Kroutieva New Journal of Physics 6 (1), 46, 2004 | 58 | 2004 |
Spin-lattice relaxation of polymers: the memory-function formalism N Fatkullin, R Kimmich, HW Weber Physical Review E 47 (6), 4600, 1993 | 58 | 1993 |
Lévy walks of strong adsorbates on surfaces: Computer simulation and spin-lattice relaxation R Valiullin, R Kimmich, N Fatkullin Physical Review E 56 (4), 4371, 1997 | 51 | 1997 |
NMR field gradient diffusometry of segment displacements in melts of entangled polymers E Fischer, R Kimmich, N Fatkullin The Journal of chemical physics 104 (22), 9174-9178, 1996 | 50 | 1996 |