Multicomponent patterned ultrathin carbon nanomembranes by laser ablation

Frese N, Scherr J, Beyer A, Terfort A, Gölzhäuser A, Hampp N, Rhinow D (2017)
Applied Surface Science 427: 126-130.

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Frese N, Scherr J, Beyer A, et al. Multicomponent patterned ultrathin carbon nanomembranes by laser ablation. Applied Surface Science. 2017;427:126-130.
Frese, N., Scherr, J., Beyer, A., Terfort, A., Gölzhäuser, A., Hampp, N., & Rhinow, D. (2017). Multicomponent patterned ultrathin carbon nanomembranes by laser ablation. Applied Surface Science, 427, 126-130. doi:10.1016/j.apsusc.2017.07.303
Frese, N., Scherr, J., Beyer, A., Terfort, A., Gölzhäuser, A., Hampp, N., and Rhinow, D. (2017). Multicomponent patterned ultrathin carbon nanomembranes by laser ablation. Applied Surface Science 427, 126-130.
Frese, N., et al., 2017. Multicomponent patterned ultrathin carbon nanomembranes by laser ablation. Applied Surface Science, 427, p 126-130.
N. Frese, et al., “Multicomponent patterned ultrathin carbon nanomembranes by laser ablation”, Applied Surface Science, vol. 427, 2017, pp. 126-130.
Frese, N., Scherr, J., Beyer, A., Terfort, A., Gölzhäuser, A., Hampp, N., Rhinow, D.: Multicomponent patterned ultrathin carbon nanomembranes by laser ablation. Applied Surface Science. 427, 126-130 (2017).
Frese, Natalie, Scherr, Julian, Beyer, André, Terfort, Andreas, Gölzhäuser, Armin, Hampp, Norbert, and Rhinow, Daniel. “Multicomponent patterned ultrathin carbon nanomembranes by laser ablation”. Applied Surface Science 427 (2017): 126-130.
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