Current–voltage modeling of graphene-based DNA sensor
Graphene is considered as an excellent biosensing material due to its outstanding and unique electronic properties such as providing large area detection, ultra-high mobility and ambipolar field-effect characteristic. In this paper, general conductance model of DNA sensor-based graphene is obtained,...
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2013
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my.utm.478372017-01-31T07:31:26Z http://eprints.utm.my/id/eprint/47837/ Current–voltage modeling of graphene-based DNA sensor Feiz Abadi, H. Karimi Yusof, R. Eshrati, S. Maryam Naghib, S. D. Rahmani, M. Ghadiri, M. Akbari, E. Ahmadi, M. T. TA Engineering (General). Civil engineering (General) Graphene is considered as an excellent biosensing material due to its outstanding and unique electronic properties such as providing large area detection, ultra-high mobility and ambipolar field-effect characteristic. In this paper, general conductance model of DNA sensor-based graphene is obtained, and the electrical performance of nanostructured graphene-based DNA sensor is evaluated by the current–voltage characteristic. As a result, by increasing the complementary DNA concentration, the drain current is going toward higher amounts. Springer-Verlag London Ltd 2013 Article PeerReviewed Feiz Abadi, H. Karimi and Yusof, R. and Eshrati, S. Maryam and Naghib, S. D. and Rahmani, M. and Ghadiri, M. and Akbari, E. and Ahmadi, M. T. (2013) Current–voltage modeling of graphene-based DNA sensor. Neural Computing and Applications, 24 . pp. 85-89. ISSN 0941-0643 |
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TA Engineering (General). Civil engineering (General) Feiz Abadi, H. Karimi Yusof, R. Eshrati, S. Maryam Naghib, S. D. Rahmani, M. Ghadiri, M. Akbari, E. Ahmadi, M. T. Current–voltage modeling of graphene-based DNA sensor |
| description |
Graphene is considered as an excellent biosensing material due to its outstanding and unique electronic properties such as providing large area detection, ultra-high mobility and ambipolar field-effect characteristic. In this paper, general conductance model of DNA sensor-based graphene is obtained, and the electrical performance of nanostructured graphene-based DNA sensor is evaluated by the current–voltage characteristic. As a result, by increasing the complementary DNA concentration, the drain current is going toward higher amounts. |
| format |
Article |
| author |
Feiz Abadi, H. Karimi Yusof, R. Eshrati, S. Maryam Naghib, S. D. Rahmani, M. Ghadiri, M. Akbari, E. Ahmadi, M. T. |
| author_facet |
Feiz Abadi, H. Karimi Yusof, R. Eshrati, S. Maryam Naghib, S. D. Rahmani, M. Ghadiri, M. Akbari, E. Ahmadi, M. T. |
| author_sort |
Feiz Abadi, H. Karimi |
| title |
Current–voltage modeling of graphene-based DNA sensor |
| title_short |
Current–voltage modeling of graphene-based DNA sensor |
| title_full |
Current–voltage modeling of graphene-based DNA sensor |
| title_fullStr |
Current–voltage modeling of graphene-based DNA sensor |
| title_full_unstemmed |
Current–voltage modeling of graphene-based DNA sensor |
| title_sort |
current–voltage modeling of graphene-based dna sensor |
| publisher |
Springer-Verlag London Ltd |
| publishDate |
2013 |
| url |
http://eprints.utm.my/id/eprint/47837/ |
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1643652384978632704 |