Model of cell electrofusion Membrane electroporation, pore coalescence and percolation

Sugar IP, Förster W, Neumann E (1987)
Biophysical Chemistry 26(2-3): 321-335.

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Biophysical Chemistry
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Sugar IP, Förster W, Neumann E. Model of cell electrofusion Membrane electroporation, pore coalescence and percolation. Biophysical Chemistry. 1987;26(2-3):321-335.
Sugar, I. P., Förster, W., & Neumann, E. (1987). Model of cell electrofusion Membrane electroporation, pore coalescence and percolation. Biophysical Chemistry, 26(2-3), 321-335. doi:10.1016/0301-4622(87)80033-9
Sugar, I. P., Förster, W., and Neumann, E. (1987). Model of cell electrofusion Membrane electroporation, pore coalescence and percolation. Biophysical Chemistry 26, 321-335.
Sugar, I.P., Förster, W., & Neumann, E., 1987. Model of cell electrofusion Membrane electroporation, pore coalescence and percolation. Biophysical Chemistry, 26(2-3), p 321-335.
I.P. Sugar, W. Förster, and E. Neumann, “Model of cell electrofusion Membrane electroporation, pore coalescence and percolation”, Biophysical Chemistry, vol. 26, 1987, pp. 321-335.
Sugar, I.P., Förster, W., Neumann, E.: Model of cell electrofusion Membrane electroporation, pore coalescence and percolation. Biophysical Chemistry. 26, 321-335 (1987).
Sugar, Istvan P., Förster, Walter, and Neumann, Eberhard. “Model of cell electrofusion Membrane electroporation, pore coalescence and percolation”. Biophysical Chemistry 26.2-3 (1987): 321-335.
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