DIFFER

M. C. M. van de Sanden

First name
M.
Middle name
C. M.
Last name
van de Sanden
ORCID
0000-0002-4119-9971
Nikiforidis, G. ., van de Sanden, M. C. M., & Tsampas, M. N. (2019). High and intermediate sodium-sulfur batteries for energy storage: development, challenges and perspectives. RSC Advances, 9(10), 5649-5673. https://doi.org/10.1039/C8RA08658C (Original work published 2019)
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Longo, S. ., van de Sanden, M. C. M., & Diomede, P. . (2019). Fokker-Planck equation for chemical reactions in plasmas. Rendiconti Lincei, 30(1), 25–30. https://doi.org/10.1007/s12210-019-00784-x
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di Palma, V. ., Zafeiropoulos, G. ., Goldsweer, T. ., Kessels, W. M. M., van de Sanden, M. C. M., Creatore, M. ., & Tsampas, M. N. (2019). Atomic layer deposition of cobalt phosphate thin films for the oxygen evolution reaction. Electrochemistry Communications, 98, 73-77. https://doi.org/10.1016/j.elecom.2018.11.021 (Original work published 2019)
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Patel, H. ., Sharma, R. K., Kyriakou, V. ., Pandiyan, A. ., Welzel, S. ., van de Sanden, M. C. M., & Tsampas, M. N. (2019). Plasma activated electrolysis for cogeneration of nitric oxide and hydrogen from water and nitrogen. ACS Energy Letters, 4(9), 2091–2095. https://doi.org/10.1021/acsenergylett.9b01517 (Original work published 2019)
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Liu, Y. ., Elam, F. M., Zoethout, E. ., Starostin, S. A., van de Sanden, M. C. M., & de Vries, H. W. (2019). Atmospheric-pressure silica-like thin film deposition using 200 kHz/13.56 MHz dual frequency excitation. Journal of Physics D: Applied Physics, 52(35), 355201. https://doi.org/10.1088/1361-6463/ab269b (Original work published 2019)
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Kyriakou, V. ., Neagu, D. ., Papaioannou, E. I., Metcalfe, I. S., van de Sanden, M. C. M., & Tsampas, M. N. (2019). Co-electrolysis of H2O and CO2 on exsolved Ni nanoparticles for efficient syngas generation at controllable H2/CO ratios. Applied Catalysis B: Environmental, 258, 117950. https://doi.org/10.1016/j.apcatb.2019.117950 (Original work published 2019)
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Minea, T. ., van de Steeg, A. W., Wolf, A. J., da Silva, A. S., Peeters, F. J. J., van den Bekerom, D. C. M., … van Rooij, G. J. (2019). Role of Electron–Ion Dissociative Recombination in CH4 Microwave Plasma on Basis of Simulations and Measurements of Electron Energy. Plasma Chemistry and Plasma Processing, 39(5), 1275–1289. https://doi.org/10.1007/s11090-019-10005-w (Original work published 2019)
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Groen, P. W. C., Wolf, A. J., Righart, T. W. H., van de Sanden, M. C. M., Peeters, F. J. J., & Bongers, W. A. (2019). Numerical model for the determination of the reduced electric field in a CO2 microwave plasma derived by the principle of impedance matching. Plasma Sources Science and Technology, 28(7), 075016. https://doi.org/10.1088/1361-6595/ab1ca1
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Wolf, A. J., Righart, T. W. H., Peeters, F. J. J., Groen, P. W. C., van de Sanden, M. C. M., & Bongers, W. A. (2019). Characterization of the CO2 microwave plasma based on the phenomenon of skin-depth-limited contraction. Plasma Sources Science and Technology, 28(11), 115022. https://doi.org/10.1088/1361-6595/ab4e61
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Neagu, D. ., Kyriakou, V. ., Roiban, L. ., Aouine, M. ., Tang, C. ., Caravaca, A. ., … Tsampas, M. N. (2019). In Situ Observation of Nanoparticle Exsolution from Perovskite Oxides: From Atomic Scale Mechanistic Insight to Nanostructure Tailoring. ACS Nano, 13(11), 12996-13005. https://doi.org/10.1021/acsnano.9b05652
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