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Spatial segregation of substitutional B atoms in graphene patterned by the moiré superlattice on Ir(111)
Cuxart, M. G., Perilli, D., Tömekce, S., Deyerling, J., Haag, F., Muntwiler, M., … Auwärter, W. (2023). Spatial segregation of substitutional B atoms in graphene patterned by the moiré superlattice on Ir(111). Carbon, 201, 881-890. https://doi.org/10.1016/j.carbon.2022.09.087
Potentials of individual atoms by convergent beam electron diffraction
Latychevskaia, T., Woods, C. R., Wang, Y. B., Holwill, M., Prestat, E., Mustafi, S., … Novoselov, K. S. (2023). Potentials of individual atoms by convergent beam electron diffraction. Carbon, 201, 244-250. https://doi.org/10.1016/j.carbon.2022.09.003
Nitrogen-doped graphene on a curved nickel surface
Vilkov, O. Y., Tarasov, A. V., Bokai, K. A., Makarova, A. A., Muntwiler, M., Schiller, F., … Usachov, D. Y. (2021). Nitrogen-doped graphene on a curved nickel surface. Carbon, 183, 711-720. https://doi.org/10.1016/j.carbon.2021.07.038
Gradients of microstructure, stresses and mechanical properties in a multi-layered diamond thin film revealed by correlative cross-sectional nano-analytics
Gruber, D. P., Todt, J., Wöhrl, N., Zalesak, J., Tkadletz, M., Kubec, A., … Keckes, J. (2019). Gradients of microstructure, stresses and mechanical properties in a multi-layered diamond thin film revealed by correlative cross-sectional nano-analytics. Carbon, 144, 666-674. https://doi.org/10.1016/j.carbon.2018.12.093
Transport properties of H<sub>2</sub> confined in carbide-derived carbons with different pore shapes and sizes
Härmas, R., Palm, R., Russina, M., Kurig, H., Grzimek, V., Härk, E., … Lust, E. (2019). Transport properties of H2 confined in carbide-derived carbons with different pore shapes and sizes. Carbon, 155, 122-128. https://doi.org/10.1016/j.carbon.2019.08.041
Tomography-based radiative characterisation of decomposing carbonaceous heat shield materials
Banerji, N., Leyland, P., & Haussener, S. (2017). Tomography-based radiative characterisation of decomposing carbonaceous heat shield materials. Carbon, 122, 451-461. https://doi.org/10.1016/j.carbon.2017.06.045
Comparative <em>operando </em>study of degradation mechanisms in carbon-based electrochemical capacitors with Li<sub>2</sub>SO<sub>4</sub> and LiNO<sub>3</sub> electrolytes
Fic, K., He, M., Berg, E. J., Novák, P., & Frackowiak, E. (2017). Comparative operando study of degradation mechanisms in carbon-based electrochemical capacitors with Li2SO4 and LiNO3 electrolytes. Carbon, 120, 281-293. https://doi.org/10.1016/j.carbon.2017.05.061
Protective effect of ultrathin alumina film against diffusion of iron into carbon fiber during growth of carbon nanotubes for hierarchical composites investigated by ptychographic X-ray computed tomography
Szmyt, W., Vogel, S., Diaz, A., Holler, M., Gobrecht, J., Calame, M., & Dransfeld, C. (2017). Protective effect of ultrathin alumina film against diffusion of iron into carbon fiber during growth of carbon nanotubes for hierarchical composites investigated by ptychographic X-ray computed tomography. Carbon, 115, 347-362. https://doi.org/10.1016/j.carbon.2016.12.085
On the correlation between electrode expansion and cycling stability of graphite/Si electrodes for Li-ion batteries
Gómez-Cámer, J. L., Bünzli, C., Hantel, M. M., Poux, T., & Novák, P. (2016). On the correlation between electrode expansion and cycling stability of graphite/Si electrodes for Li-ion batteries. Carbon, 105, 42-51. https://doi.org/10.1016/j.carbon.2016.04.022
Vanadium (V) reduction reaction on modified glassy carbon electrodes - role of oxygen functionalities and microstructure
Taylor, S. M., Pătru, A., Streich, D., El Kazzi, M., Fabbri, E., & Schmidt, T. J. (2016). Vanadium (V) reduction reaction on modified glassy carbon electrodes - role of oxygen functionalities and microstructure. Carbon, 109, 472-478. https://doi.org/10.1016/j.carbon.2016.08.044
From nanopores to macropores: fractal morphology of graphite
Zhou, Z., Bouwman, W. G., Schut, H., Desert, S., Jestin, J., Hartmann, S., & Pappas, C. (2016). From nanopores to macropores: fractal morphology of graphite. Carbon, 96, 541-547. https://doi.org/10.1016/j.carbon.2015.09.069
Influence of graphite edge crystallographic orientation on the first lithium intercalation in Li-ion battery
Bernardo, P., Le Meins, J. M., Vidal, L., Dentzer, J., Gadiou, R., Märkle, W., … Vix-Guterl, C. (2015). Influence of graphite edge crystallographic orientation on the first lithium intercalation in Li-ion battery. Carbon, 91, 458-467. https://doi.org/10.1016/j.carbon.2015.05.001
Pulsed ultra-violet laser interactions with ultra-low-density porous carbon nanotube sponges
Chen, J., Gui, X., Lin, Z., Tang, Z., Lee, M. M., Wokaun, A., & Lippert, T. (2015). Pulsed ultra-violet laser interactions with ultra-low-density porous carbon nanotube sponges. Carbon, 93, 604-610. https://doi.org/10.1016/j.carbon.2015.05.089
Characterization of carbon fibers using X-ray phase nanotomography
Diaz, A., Guizar-Sicairos, M., Poeppel, A., Menzel, A., & Bunk, O. (2014). Characterization of carbon fibers using X-ray phase nanotomography. Carbon, 67, 98-103. https://doi.org/10.1016/j.carbon.2013.09.066
Parameters determining dimensional changes of porous carbons during capacitive charging
Hantel, M. M., Weingarth, D., & Kötz, R. (2014). Parameters determining dimensional changes of porous carbons during capacitive charging. Carbon, 69, 275-286. https://doi.org/10.1016/j.carbon.2013.12.026
Ionic conductivity in the Mg intercalated fullerene polymer Mg&lt;sub&gt;2&lt;/sub&gt;C&lt;sub&gt;60&lt;/sub&gt;
Pontiroli, D., Aramini, M., Gaboardi, M., Mazzani, M., Gorreri, A., Riccò, M., … Sheptyakov, D. (2013). Ionic conductivity in the Mg intercalated fullerene polymer Mg2C60. Carbon, 51(1), 143-147. https://doi.org/10.1016/j.carbon.2012.08.022
Competing magnetic interactions in the graphite-intercalation compound Li&lt;sub&gt;0.25&lt;/sub&gt;Eu&lt;sub&gt;1.95&lt;/sub&gt;C&lt;sub&gt;6&lt;/sub&gt;
Shiroka, T., Thede, M., Wittenfeld, L., Litterst, F. J., Cahen, S., Rida, H., … Hérold, C. (2013). Competing magnetic interactions in the graphite-intercalation compound Li0.25Eu1.95C6. Carbon, 63, 294-302. https://doi.org/10.1016/j.carbon.2013.06.082
Interaction between single walled carbon nanotube and 1D crystal in CuX@SWCNT (X = Cl, Br, I) nanostructures
Eliseev, A. A., Yashina, L. V., Verbitskiy, N. I., Brzhezinskaya, M. M., Kharlamova, M. V., Chernysheva, M. V., … Nachtegaal, M. (2012). Interaction between single walled carbon nanotube and 1D crystal in CuX@SWCNT (X = Cl, Br, I) nanostructures. Carbon, 50(11), 4021-4039. https://doi.org/10.1016/j.carbon.2012.04.046
The zero-field magnetic ground state of EuC&lt;sub&gt;6 &lt;/sub&gt;investigated by muon spectroscopy
Lamura, G., Shiroka, T., Cahen, S., Rida, H., Emery, N., Marêché, J. F., … Hérold, C. (2012). The zero-field magnetic ground state of EuC6 investigated by muon spectroscopy. Carbon, 50(11), 3995-4001. https://doi.org/10.1016/j.carbon.2012.04.028
The influence of H<sub>2</sub>SO<sub>4</sub> on soot oxidation with NO<sub>2</sub>
Mehring, M., Elsener, M., Bächli, L., & Kröcher, O. (2012). The influence of H2SO4 on soot oxidation with NO2. Carbon, 50(6), 2100-2109. https://doi.org/10.1016/j.carbon.2011.12.061