Multifunctional Nanodevice Based on Ti2O - SFKM
Conference object (Published version)
,
Institute of physics, University of Belgrade
Metadata
Show full item recordAbstract
Miniaturization of microelectronics, as integration of increasingly more transistors
and hence functions per chip area, approaches its end due to the limits of the silicon technology.
We propose a new concept of multifunctional nanodevices which multiple functionality is at the
material’s level, as replacements for common transistors. An example of such a multifunctional
nanodevice based on a Ti2O monolayer will be presented. In contrast to TiO2 crystal, Ti2O have
not been intensively investigated even though the crystal was fabricated in 1953 for the first
time. Our study based on density functional theory indicates that a Ti2O layer is bistable for two
lattice parameters, being metallic for one and semiconducting for another parameter. In a
switching configuration, this provides a high current ON/OFF ratio of 103 when the layer is
biased and stretched simultaneously. The electronic conductance of the layer is highly
anisotropic. The high sensitivity of conductance to layer ...stretching can be utilized for
electromechanical switching, the bistability provides potential for application as a nonvolatile
memory bit, while the current-voltage characteristic of the material in its semiconducting phase
indicates a possible use as a varistor – all in a single nanodevice.
Keywords:
Titanium oxide / Electronic properties / Transport properties / Nanodevice / Density functional theory / Memory / Ti2OSource:
The 20th Symposium on Condensed Matter Physics, Belgrade, 7-11 October 2019, 2019, 73-Publisher:
- Institute of physics, University of Belgrade
Note:
- Link na knjigu abstrakata: http://sfkm2019.ipb.ac.rs/wp-content/uploads/2019/10/BOOK-v4.pdf
Collections
Institution/Community
Institut za multidisciplinarna istraživanjaTY - CONF AU - Popov, Igor PY - 2019 UR - http://rimsi.imsi.bg.ac.rs/handle/123456789/3028 AB - Miniaturization of microelectronics, as integration of increasingly more transistors and hence functions per chip area, approaches its end due to the limits of the silicon technology. We propose a new concept of multifunctional nanodevices which multiple functionality is at the material’s level, as replacements for common transistors. An example of such a multifunctional nanodevice based on a Ti2O monolayer will be presented. In contrast to TiO2 crystal, Ti2O have not been intensively investigated even though the crystal was fabricated in 1953 for the first time. Our study based on density functional theory indicates that a Ti2O layer is bistable for two lattice parameters, being metallic for one and semiconducting for another parameter. In a switching configuration, this provides a high current ON/OFF ratio of 103 when the layer is biased and stretched simultaneously. The electronic conductance of the layer is highly anisotropic. The high sensitivity of conductance to layer stretching can be utilized for electromechanical switching, the bistability provides potential for application as a nonvolatile memory bit, while the current-voltage characteristic of the material in its semiconducting phase indicates a possible use as a varistor – all in a single nanodevice. PB - Institute of physics, University of Belgrade C3 - The 20th Symposium on Condensed Matter Physics, Belgrade, 7-11 October 2019 T1 - Multifunctional Nanodevice Based on Ti2O - SFKM SP - 73 UR - https://hdl.handle.net/21.15107/rcub_rimsi_3028 ER -
@conference{ author = "Popov, Igor", year = "2019", abstract = "Miniaturization of microelectronics, as integration of increasingly more transistors and hence functions per chip area, approaches its end due to the limits of the silicon technology. We propose a new concept of multifunctional nanodevices which multiple functionality is at the material’s level, as replacements for common transistors. An example of such a multifunctional nanodevice based on a Ti2O monolayer will be presented. In contrast to TiO2 crystal, Ti2O have not been intensively investigated even though the crystal was fabricated in 1953 for the first time. Our study based on density functional theory indicates that a Ti2O layer is bistable for two lattice parameters, being metallic for one and semiconducting for another parameter. In a switching configuration, this provides a high current ON/OFF ratio of 103 when the layer is biased and stretched simultaneously. The electronic conductance of the layer is highly anisotropic. The high sensitivity of conductance to layer stretching can be utilized for electromechanical switching, the bistability provides potential for application as a nonvolatile memory bit, while the current-voltage characteristic of the material in its semiconducting phase indicates a possible use as a varistor – all in a single nanodevice.", publisher = "Institute of physics, University of Belgrade", journal = "The 20th Symposium on Condensed Matter Physics, Belgrade, 7-11 October 2019", title = "Multifunctional Nanodevice Based on Ti2O - SFKM", pages = "73", url = "https://hdl.handle.net/21.15107/rcub_rimsi_3028" }
Popov, I.. (2019). Multifunctional Nanodevice Based on Ti2O - SFKM. in The 20th Symposium on Condensed Matter Physics, Belgrade, 7-11 October 2019 Institute of physics, University of Belgrade., 73. https://hdl.handle.net/21.15107/rcub_rimsi_3028
Popov I. Multifunctional Nanodevice Based on Ti2O - SFKM. in The 20th Symposium on Condensed Matter Physics, Belgrade, 7-11 October 2019. 2019;:73. https://hdl.handle.net/21.15107/rcub_rimsi_3028 .
Popov, Igor, "Multifunctional Nanodevice Based on Ti2O - SFKM" in The 20th Symposium on Condensed Matter Physics, Belgrade, 7-11 October 2019 (2019):73, https://hdl.handle.net/21.15107/rcub_rimsi_3028 .