Electronic transport at the nanoscale: Theoretical and computational aspects, Alexandre Reily Rocha and Stefano Sanvito

13.	A. R. Rocha, M. Rossi, A. Fazzio and A. J. R. da Silva, Designing reallistic nanotube gas sensors, J. Physics D: Applied Physics, 43, 374002 (2010).
12.	A. R. Rocha, T. B. Martins, A. Fazzio, A. J. R. da Silva, Spintronics in disordered graphene-based systems, Nanotechnology, 21, 345202 (2010).
11.	Zhong, Xiaoliang; Pandey, Ravindra; Rocha, Alexandre Reily; Karna, Shashi P., Can Single-Atom Change Affect Electron Transport Properties of Molecular Nanostructures such as C Fullerene?, The Journal of Physical Chemistry Letters, p. 100429122821010-1589, (2010).
10.	Pemmaraju, C. ; Rungger, I.; Chen, X.; Sanvito, S.; Rocha, A.R. . Ab initio study of electron transport in dry poly(G)-poly(C) A-DNA strands. Physical Review. B, Condensed Matter and Materials Physics, v. 82, p. 125426, 2010.
9.	Lima, Matheus; Rocha, A. R.; da Silva, Antônio J. R.; Fazzio, A.; Mimicking nanoribbon behavior using a graphene layer on SiC. Physical Review. B, Condensed Matter and Materials Physics, v. 82, p. 153402, 2010.

8.	Cao, Chao; Kemper, A. F.; Agapito, Luis; Zhang, Jian-Wei; He, Yao; Rinzler, Andrew; Cheng, Hai-Ping; Zhang, X.-G.; Rocha, Alexandre Reily; Sanvito, Stefano. Nonequilibrium Green s function study of Pd_{4}-cluster-functionalized carbon nanotubes as hydrogen sensors. Physical Review. B, Condensed Matter and Materials Physics, v. 79, p. 075127, (2009).
7.	Morari, Cristian; Rungger, Ivan; Rocha, Alexandre R.; Sanvito, Stefano; Melinte, Sorin; Rignanese, Gian-Marco. Electronic Transport Properties of 1,1?-Ferrocene Dicarboxylic Acid Linked to Al(111) Electrodes. ACS Nano, v. 3, p. 4137-4143, (2009).
6.	ROCHA, A. R.; Rossi, M. A.; FAZZIO, A.; da SILVA, A. J. R.. Designing Real Nanotube-Based Gas Sensors. Physical Review Letters, v. 100, p. 176803, (2008).

5.	ROCHA, A. R.; PADILHA, J. E.; FAZZIO, A.; da SILVA, A. J. R.. Transport properties of single vacancies in nanotubes. Physical Review B - Solid State, v. 77, p. 153406, (2008).
4.	Fan, Wei; Zhang, R. Q.; ROCHA, A. R.; Sanvito, Stefano. Energy alignment induced negative differential resistance: The role of hybrid states in aromatic molecular devices. Journal of Chemical Physics, v. 129, p. 074710, (2008).
3.	Li, G. Q.; Cai, J.; Deng, J. K.; ROCHA, A. R.; Sanvito, S.. The difference of the transport properties of graphene with corrugation structure and with flat structure. Applied Physics Letters, v. 92, p. 163104, (2008).
2.	Nakamura, Hisao; Yamashita, Koich; ROCHA, A. R.. Efficient ab initio method for inelastic transport in nanoscale devices: Analysis of inelastic electron tunneling spectroscopy. Physical Review. B, Condensed Matter and Materials Physics, v. 78, p. 235420, (2008).
1.	He, H.; Scheicher, R.H.; Pandey, R.; Rocha, A.R.; Sanvito, S.; Grigoriev, A.; Ahuja, R.; Karna, S.P.. Functionalized Nanopore-Embedded Electrodes for Rapid DNA Sequencing. Journal of Physical Chemistry. C, v. 112, p. 3456-3459, (2008).