Curriculum Vitae

Research Interests

 

We use computer simulation techniques to study:

  • Nanostructures
  • 2D materials
  • Fluid systems
Publications



2017

31. Nanoporous graphene and h-BN from BCN precursors: First-principles calculations
      R. F. Dias, J. da Rocha Martins, H. Chacham, A. B. de Oliveira, T. M. Manhabosco, and R. J. C. Batista
      Journal of Physical Chemistry C, Submitted  (2017).

30. Onset of size-dependent flexural hardening of 2D materials 
      H. Chacham, A. P. M. Barboza, A. B. de Oliveira, R. J. C. Batista, and B. R. A. Neves
      Small, Submitted  (2017).

29. A coarse-grained model based on core-softened potentials for anomalous polymers
      R. J. C. Batista, E. A. S. Torres, A. B. de Oliveira, and M. C. Barbosa
      Journal of Chemical Sciences 129, 999 (2017).

28Edge-reconstructed, few-layered graphene nanoribbons: stability and electronic properties
      J. A. Gonçalves, R. Nascimento, M. J. Matos, A. B. de Oliveira, H.  Chacham, and R. J. C. Batista
      Journal of Physical Chemistry C 121, 5836 (2017).

27Raman evidence for pressure-induced formation of diamondene
      L. P. Martins , A. R. Paschoal , M. Matos , P. T. C. Freire , N. F. Andrade , A. L. Aguiar , J. Kong , B. Neves , A. B. de Oliveira , et al.
      Nature Communications 8, 96  (2017).

26. Accurate calculation of near-critical heat capacities Cp and Cv of argon using molecular dynamics 
      J. Nichele, A. B. de Oliveira, L. S. de Brito Alves, and I. Borges Jr.
      Journal of Molecular Liquids 237, 65  (2017).

2016

25. Effect of TiO2 Nanoparticles on Polyaniline Films Electropolymerized at Different pH 
      V. F. L. Filho, G. Machado, R. J. C. Batista, J. S. Soares, A. B. de Oliveira, C. K. B. de Vasconcelos, A. Lino, and T. M. Manhabosco.
      The Journal of Physical Chemistry C 120, 14977 (2016).

24. Molecular dynamics simulations of momentum and thermal diffusion properties of near-critical argon along isobars
      J. Nichele, I. Borges Jr., A. B. de Oliveira, and L. S. de Brito Alves.
      The Journal of Supercritical Fluids 114, 46 (2016).

23. A simple model for solute-solvent separation through nanopores based on core-softened potentials
      C. K. B. de Vasconcelos, R. J. C. Batista, Mc. da Rocha Régis, T. M. Manhabosco, and A. B. de Oliveira
      Physica A 453, 184 (2016).

22. Vibrational G peak splitting in laterally functionalized single wall carbon nanotubes: Theory and molecular dynamics simulations
      A. B. de Oliveira, H. Chacham, J. S. Soares, T. M. Manhabosco, H. F. V. de Resende, and R. J. C. Batista
      Carbon 96, 616 (2016).

2015

21. Crystal-oriented wrinkles with origami-type junctions in few-layer h-BN
      C. K. Oliveira, E. F. A. Gomes, M. C. Prado, T. V. Alencar, R. Nascimento, L. M. Malard, R. J. C. Batista, A. B. de Oliveira et al.
      Nano Research 8, 1680 (2015).

20. Soliton instability and fold formation in laterally compressed graphene
      A. L. de Lima, L. A. M. Mussnich, T. M. Manhabosco, H. Chacham, R. J. C. Batista, and A. B. de Oliveira
      Nanotechnology 26, 045707 (2015).

2014

19. Controlling the electrical response of carbon nanotubes deposited on diamond through the application of electric fields
      R. J. C. Batista, A. B. de Oliveira, S. S. Carara, and H. Chacham
      The Journal of Physical Chemistry C 118, 21599 (2014).

2012

18. Tunable band gap of boron nitride interfaces under uniaxial pressure [Editors Choice]
      E. E. Moraes, T. M. Manhabosco, A. B. de Oliveira, and R. J. C. Batista
      Journal of Physics: Condensed Matter 24, 475502 (2012).

17. Diffusion enhancement in core-softened fluid confined in nanotubes
      J. R. Bordin, A. B. de Oliveira, A. Diehl, and M. C. Barbosa
      Journal of Chemical Physics 137, 084504 (2012).

16. In situ atomic force microscopy tip-induced deformations and Raman spectroscopy characterization of single-wall carbon nanotubes
      P. T. Araujo, N. M. Barbosa Neto, H. Chacham, S. S. Carara, J. S. Soares, A. D. Souza, L. G. Cançado, A. B. de Oliveira, R. J. C. Batista et al. 
      Nano Letters 12, 4110 (2012).

15. Dynamic negative compressibility of few-layer graphene, h-BN and MoS2
      A. P. M. Barboza, C. K. Oliveira, T. F. D. Fernandes, E. H. M. Ferreira, B. S. Archanjo, R. J. C. Batista, A. B. de Oliveira, H. Chacham, and B. R. A. Neves
      Nano Letters 12, 2313 (2012).

14. Boron Nitride Nanotubes as Templates for Half-Metal Nanowires
      Ronaldo J. C. Batista, Alan B. de Oliveira, Natália R. Pereira, Rafael S. Paolini, and Taíse M. Manhabosco
      Journal of Physics: Condensed Matter 24, 165501 (2012).

2011

13. Core-softened Fluids, Water-like Anomalies and the Liquid-Liquid Critical Points
      Evy Salcedo, Alan B. de Oliveira, Ney M. Barraz Jr, Charusita Chakravarty, and Marcia C. Barbosa
      Journal of Chemical Physics 135, 044517 (2011).

12. Dynamics of the contact between a ruthenium surface with a single nanoasperity and a flat ruthenium surface: Molecular dynamics simulations
      Alan B. de Oliveira, Andrea Fortini, Sergey V. Buldyrev, and David Srolovitz
      Physical Review B 83, 134101 (2011).

2010

11. Effects of attractive interactions in the thermodynamic, dynamic and structural anomalies of a two length scales potential
      Jonathas N. da Silva, Evy Salcedo, Alan B. de Oliveira, and Marcia C. Barbosa
      Journal of Chemical Physics 133, 244506 (2010).

10. Iron oxide doped boron nitride nanotubes: structural and magnetic properties
      Ronaldo J. C. Batista, Alan B. de Oliveira, and Daniel L. Rocco
      Journal of Physics: Condensed Matter 22, 355302 (2010).

09. Entropy, diffusivity and the energy landscape of a water-like fluid
      Alan B. de Oliveira, Evy Salcedo, Charusita Chakravarty, and Marcia C. Barbosa
      Journal of Chemical Physics 132, 234509 (2010).

08. Liquid crystal phase and waterlike anomalies in a core-softened shoulder-dumbbells system
      Alan B. de Oliveira, Eduardo B. Neves, Cristina Gavazzoni, Juliana Z. Paukowski, Paulo A. Netz, and Marcia C. Barbosa
      Journal of Chemical Physics 132, 164505 (2010).

2009

07. An ubiquitous mechanism for water-like anomalies
      Alan B. de Oliveira, Paulo A. Netz, and Marcia C. Barbosa
      Europhysics Letters 85, 36001 (2009).

2008


06. Which mechanism underlies the water-like anomalies in core-softened potentials? 
      Alan B. de Oliveira, Paulo A. Netz, and Marcia C. Barbosa
      European Physical Journal B 64, 481 (2008).

05. Water-like hierarchy of anomalies in a continuous spherical shouldered potential
      Alan B. de Oliveira, Giancarlo Franzese, Paulo A. Netz, and Marcia C. Barbosa
      Journal of Chemical Physics 128, 064901 (2008).

2007

04. Interplay between structure and density anomaly for an isotropic core-softened ramp-like potential
      Alan B. de Oliveira, Marcia C. Barbosa, and Paulo A. Netz
      Physica A 386, 744 (2007).

2006

03. Structural anomalies for a three dimensional isotropic core-softened potential
      Alan B. de Oliveira, Paulo A. Netz, Thiago Colla and Marcia C. Barbosa
      Journal of Chemical Physics 125, 124503 (2006).

02. Thermodynamic and dynamic anomalies for a three dimensional isotropic core-softened potential
      Alan B. de Oliveira, Paulo A. Netz, Thiago Colla and Marcia C. Barbosa
      Journal of Chemical Physics 124, 084505 (2006).

2005

01. Density anomaly in a competing interactions lattice gas model
      Alan B. de Oliveira and Marcia C. Barbosa
      Journal of Physics: Condensed Matter 17, 399 (2005).