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Benjamin Grope
Benjamin Grope
Institute of Physical Chemistry, RWTH Aachen University & Statistisches Landesamt BW
Verified email at rwth-aachen.de
Title
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Cited by
Year
Understanding the ionic conductivity maximum in doped ceria: trapping and blocking
J Koettgen, S Grieshammer, P Hein, BOH Grope, M Nakayama, M Martin
Physical Chemistry Chemical Physics 20 (21), 14291-14321, 2018
1192018
A combined DFT+ U and Monte Carlo study on rare earth doped ceria
S Grieshammer, BOH Grope, J Koettgen, M Martin
Physical Chemistry Chemical Physics 16 (21), 9974-9986, 2014
1182014
Oxygen ion conductivity of doped ceria: A Kinetic Monte Carlo study
BOH Grope, T Zacherle, M Nakayama, M Martin
Solid State Ionics 225, 476-483, 2012
512012
Kinetic Monte Carlo simulations of ionic conductivity in oxygen ion conductors
P Hein, BOH Grope, J Koettgen, S Grieshammer, M Martin
Materials Chemistry and Physics 257, 123767, 2021
42021
Die Entwicklung eines allgemeinen Kinetik-Monte-Carlo-Frameworks zur Diffusion in Festkörpern
BOH Grope, PC Schmidt, M Martin
Fachgruppe Chemie, 2015
12015
Cite this: DOI: 10.1039/C7CP08535D Understanding the ionic conductivity maximum in
J Koettgen, S Grieshammer, P Hein, BOH Grope, M Nakayama, M Martin
Phys. Chem. Chem. Phys 1 (31), 1, 2018
2018
Poster: Polar Dielectrics, Optics, and Ionics
Y Jin Kim, M Hyuk Park, H Joon Kim, D Seok Jeong, A Jiang, ...
Frontiers in Electronic Materials: A Collection of Extended Abstracts of the …, 2012
2012
Understanding the ionic conductivity maximum in doped ceria: trapping and blocking (Electronic Supplementary Information)
J Koettgen, S Grieshammer, P Hein, BOH Grope, M Nakayama, M Martin
Die Entwicklung eines allgemeinen Kinetik-Monte-Carlo-Frameworks zur Diffusion in Festkörpern
MBA Diplom-Physiker, BOH Grope
Electronic Supplementary Information A combined DFT+ U and Monte Carlo study on rare earth doped ceria
S Grieshammer, B Grope, J Koettgen, M Martin
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