Difference between revisions of "2D Materials"
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The development of atomically thin layers of van der Waals bonded solids has opened up new possibilities for the exploration of 2D physics as well as for materials for applications. There are semimetals, insulators and semiconductors among them. Combining them into heterostructures offers a new route to efficient, stable and flexible solar cells. | The development of atomically thin layers of van der Waals bonded solids has opened up new possibilities for the exploration of 2D physics as well as for materials for applications. There are semimetals, insulators and semiconductors among them. Combining them into heterostructures offers a new route to efficient, stable and flexible solar cells. | ||
Electrical contacts to two dimensional semiconductors- | Electrical contacts to two dimensional semiconductors- | ||
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[[File:2d3.png|thumb]] | [[File:2d3.png|thumb]] | ||
[[File:2d4.png|thumb]] | [[File:2d4.png|thumb]] | ||
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2d1.png|Caption1 | |||
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Revision as of 17:12, 5 February 2019
The development of atomically thin layers of van der Waals bonded solids has opened up new possibilities for the exploration of 2D physics as well as for materials for applications. There are semimetals, insulators and semiconductors among them. Combining them into heterostructures offers a new route to efficient, stable and flexible solar cells. Electrical contacts to two dimensional semiconductors-
From poster by Wenjin Zhao, Tauno Palomaki, Joe Finney, Zaiyao Fei, Paul Nguyen, Frank McKay, David H. Cobden Nanodevice Physics Lab, Department of Physics, University of Washington, Seattle WA 98195-1560