Mechanically Stacked 1-nm-Thick Carbon Nanosheets: Ultrathin Layered Materials with Tunable Optical, Chemical, and Electrical Properties

Nottbohm CT, Turchanin A, Beyer A, Stosch R, Gölzhäuser A (2011)
Small 7(7): 874-883.

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Nottbohm CT, Turchanin A, Beyer A, Stosch R, Gölzhäuser A. Mechanically Stacked 1-nm-Thick Carbon Nanosheets: Ultrathin Layered Materials with Tunable Optical, Chemical, and Electrical Properties. Small. 2011;7(7):874-883.
Nottbohm, C. T., Turchanin, A., Beyer, A., Stosch, R., & Gölzhäuser, A. (2011). Mechanically Stacked 1-nm-Thick Carbon Nanosheets: Ultrathin Layered Materials with Tunable Optical, Chemical, and Electrical Properties. Small, 7(7), 874-883.
Nottbohm, C. T., Turchanin, A., Beyer, A., Stosch, R., and Gölzhäuser, A. (2011). Mechanically Stacked 1-nm-Thick Carbon Nanosheets: Ultrathin Layered Materials with Tunable Optical, Chemical, and Electrical Properties. Small 7, 874-883.
Nottbohm, C.T., et al., 2011. Mechanically Stacked 1-nm-Thick Carbon Nanosheets: Ultrathin Layered Materials with Tunable Optical, Chemical, and Electrical Properties. Small, 7(7), p 874-883.
C.T. Nottbohm, et al., “Mechanically Stacked 1-nm-Thick Carbon Nanosheets: Ultrathin Layered Materials with Tunable Optical, Chemical, and Electrical Properties”, Small, vol. 7, 2011, pp. 874-883.
Nottbohm, C.T., Turchanin, A., Beyer, A., Stosch, R., Gölzhäuser, A.: Mechanically Stacked 1-nm-Thick Carbon Nanosheets: Ultrathin Layered Materials with Tunable Optical, Chemical, and Electrical Properties. Small. 7, 874-883 (2011).
Nottbohm, Christoph T., Turchanin, Andrey, Beyer, André, Stosch, Rainer, and Gölzhäuser, Armin. “Mechanically Stacked 1-nm-Thick Carbon Nanosheets: Ultrathin Layered Materials with Tunable Optical, Chemical, and Electrical Properties”. Small 7.7 (2011): 874-883.
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