Sander, C.; Nitsch, A.; Erb, H.H.H.; Egger, E.K.; Haralambiev, L.; Eggers, B.; Kramer, F.-J.; Weiss, M.; Mustea, A.; Stope, M.B.
Non-Invasive Physical Plasma Enhances the Membrane Permeability to Low Molecular Weight Compounds and Subsequently Leads to the Loss of Cellular ATP and the Devitalization of Epithelial Cancer Cells. Appl. Sci. 2021, 11, 9801.
https://doi.org/10.3390/app11219801
AMA Style
Sander C, Nitsch A, Erb HHH, Egger EK, Haralambiev L, Eggers B, Kramer F-J, Weiss M, Mustea A, Stope MB.
Non-Invasive Physical Plasma Enhances the Membrane Permeability to Low Molecular Weight Compounds and Subsequently Leads to the Loss of Cellular ATP and the Devitalization of Epithelial Cancer Cells. Applied Sciences. 2021; 11(21):9801.
https://doi.org/10.3390/app11219801
Chicago/Turabian Style
Sander, Caroline, Andreas Nitsch, Holger H. H. Erb, Eva K. Egger, Lyubomir Haralambiev, Benedikt Eggers, Franz-Josef Kramer, Martin Weiss, Alexander Mustea, and Matthias B. Stope.
2021. "Non-Invasive Physical Plasma Enhances the Membrane Permeability to Low Molecular Weight Compounds and Subsequently Leads to the Loss of Cellular ATP and the Devitalization of Epithelial Cancer Cells" Applied Sciences 11, no. 21: 9801.
https://doi.org/10.3390/app11219801
APA Style
Sander, C., Nitsch, A., Erb, H. H. H., Egger, E. K., Haralambiev, L., Eggers, B., Kramer, F.-J., Weiss, M., Mustea, A., & Stope, M. B.
(2021). Non-Invasive Physical Plasma Enhances the Membrane Permeability to Low Molecular Weight Compounds and Subsequently Leads to the Loss of Cellular ATP and the Devitalization of Epithelial Cancer Cells. Applied Sciences, 11(21), 9801.
https://doi.org/10.3390/app11219801
