The electronic and transport properties of defective bilayer graphene nanoribbon
This paper reports the atomistic simulation of AA and AB stacking bilayer graphene nanoribbon (BGNR) incorporated vacancy defect. The vacancy defects include single vacancy (SV), stone wales (SW), divacancy (DV) and 57775 located in BGNR layers. Through simulation, it is demonstrated the SW defect l...
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2017
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my.utm.662782017-11-30T01:03:31Z http://eprints.utm.my/id/eprint/66278/ The electronic and transport properties of defective bilayer graphene nanoribbon Johari, Zaharah Auzar, Zuriana Alias, Nurul Ezaila TK Electrical engineering. Electronics Nuclear engineering This paper reports the atomistic simulation of AA and AB stacking bilayer graphene nanoribbon (BGNR) incorporated vacancy defect. The vacancy defects include single vacancy (SV), stone wales (SW), divacancy (DV) and 57775 located in BGNR layers. Through simulation, it is demonstrated the SW defect less affected the bandgap in BGNR. In addition, the one dimensional signature of the transmission spectrum (TS) and density of state (DOS) vanished. Importantly, the result obtained shows that the vacancy defects that are located in either layer 1 (L1) or both layer 1 and layer 2 (L1 + L2) behave differently on the current–voltage (I–V) characteristic for both AA and AB stackings BGNR devices depending on the types of defect. The use of defect enables the modification of BGNR electronic and transport properties. American Scientific Publishers 2017-01-02 Article PeerReviewed Johari, Zaharah and Auzar, Zuriana and Alias, Nurul Ezaila (2017) The electronic and transport properties of defective bilayer graphene nanoribbon. Journal of Nanoelectronics and Optoelectronics, 12 (2). pp. 177-183. ISSN 1555-130X https://doi.org/10.1166/jno.2017.1981 DOI:10.1166/jno.2017.1981 |
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TK Electrical engineering. Electronics Nuclear engineering Johari, Zaharah Auzar, Zuriana Alias, Nurul Ezaila The electronic and transport properties of defective bilayer graphene nanoribbon |
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This paper reports the atomistic simulation of AA and AB stacking bilayer graphene nanoribbon (BGNR) incorporated vacancy defect. The vacancy defects include single vacancy (SV), stone wales (SW), divacancy (DV) and 57775 located in BGNR layers. Through simulation, it is demonstrated the SW defect less affected the bandgap in BGNR. In addition, the one dimensional signature of the transmission spectrum (TS) and density of state (DOS) vanished. Importantly, the result obtained shows that the vacancy defects that are located in either layer 1 (L1) or both layer 1 and layer 2 (L1 + L2) behave differently on the current–voltage (I–V) characteristic for both AA and AB stackings BGNR devices depending on the types of defect. The use of defect enables the modification of BGNR electronic and transport properties. |
| format |
Article |
| author |
Johari, Zaharah Auzar, Zuriana Alias, Nurul Ezaila |
| author_facet |
Johari, Zaharah Auzar, Zuriana Alias, Nurul Ezaila |
| author_sort |
Johari, Zaharah |
| title |
The electronic and transport properties of defective bilayer graphene nanoribbon |
| title_short |
The electronic and transport properties of defective bilayer graphene nanoribbon |
| title_full |
The electronic and transport properties of defective bilayer graphene nanoribbon |
| title_fullStr |
The electronic and transport properties of defective bilayer graphene nanoribbon |
| title_full_unstemmed |
The electronic and transport properties of defective bilayer graphene nanoribbon |
| title_sort |
electronic and transport properties of defective bilayer graphene nanoribbon |
| publisher |
American Scientific Publishers |
| publishDate |
2017 |
| url |
http://eprints.utm.my/id/eprint/66278/ https://doi.org/10.1166/jno.2017.1981 |
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1643655791499018240 |