Artificial cells: Temperature-dependent, reversible Li+-ion uptake/release equilibrium at metal oxide nanocontainer pores

Müller A, Rehder D, Haupt ETK, Merca A, Bögge H, Schmidtmann M, Heinze-Brückner G (2004)
Angewandte Chemie. International Edition 43(34): 4466-4470.

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Müller A, Rehder D, Haupt ETK, et al. Artificial cells: Temperature-dependent, reversible Li+-ion uptake/release equilibrium at metal oxide nanocontainer pores. Angewandte Chemie. International Edition. 2004;43(34):4466-4470.
Müller, A., Rehder, D., Haupt, E. T. K., Merca, A., Bögge, H., Schmidtmann, M., & Heinze-Brückner, G. (2004). Artificial cells: Temperature-dependent, reversible Li+-ion uptake/release equilibrium at metal oxide nanocontainer pores. Angewandte Chemie. International Edition, 43(34), 4466-4470. doi:10.1002/anie.200453762
Müller, A., Rehder, D., Haupt, E. T. K., Merca, A., Bögge, H., Schmidtmann, M., and Heinze-Brückner, G. (2004). Artificial cells: Temperature-dependent, reversible Li+-ion uptake/release equilibrium at metal oxide nanocontainer pores. Angewandte Chemie. International Edition 43, 4466-4470.
Müller, A., et al., 2004. Artificial cells: Temperature-dependent, reversible Li+-ion uptake/release equilibrium at metal oxide nanocontainer pores. Angewandte Chemie. International Edition, 43(34), p 4466-4470.
A. Müller, et al., “Artificial cells: Temperature-dependent, reversible Li+-ion uptake/release equilibrium at metal oxide nanocontainer pores”, Angewandte Chemie. International Edition, vol. 43, 2004, pp. 4466-4470.
Müller, A., Rehder, D., Haupt, E.T.K., Merca, A., Bögge, H., Schmidtmann, M., Heinze-Brückner, G.: Artificial cells: Temperature-dependent, reversible Li+-ion uptake/release equilibrium at metal oxide nanocontainer pores. Angewandte Chemie. International Edition. 43, 4466-4470 (2004).
Müller, Achim, Rehder, D, Haupt, E. T. K., Merca, Alice, Bögge, Hartmut, Schmidtmann, Marc, and Heinze-Brückner, Gabriele. “Artificial cells: Temperature-dependent, reversible Li+-ion uptake/release equilibrium at metal oxide nanocontainer pores”. Angewandte Chemie. International Edition 43.34 (2004): 4466-4470.
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