Publicações

Para visualização das publicações e do curriculum, acesse o link abaixo.

Curriculum Lattes

Agumas Publicações mais importantes:

 

1- Mossbauer studies and electronic structure of g’-Fe4N.

C.A. Kuhnen, R. S. Figueiredo, V. Drago e E.Z. da Silva, Journal of Magnetism and Magnetism Materials 111, 95-104 (1992).

2- How do  Au-nanowires break?

Z. da Silva , A.J.R. da Silva and A. Fazzio, Physical Review Letters, 87, 256102 (2001).

Destaque de capa do Volume 87, Fascículo 25.

3- Effect of impurities in the large  Au-Au distances in Gold nanowires.

Frederico D. Novaes, A.J.R. da Silva, E. Z. da Silva , e A. Fazzio, Physical Review Letters, 90, 036101 (2003). 

Destaque, Revista Science, EDITOR’S CHOICE.

4- Theoretical study of formation evolution and breaking of gold nanowires.

Z. da Silva, Frederico D. Novaes, A.J.R. da Silva, e A. Fazzio, Physical Review B, Physical Review B, 69, 115411 (2004).

5- Computer simulations in the study of gold nanowires: the effect of impurities.

F.D. Novaes, A.J.R. da Silva, A. Fazzio e E. Z. da Silva, Applied Physics A, 81, 1551, 1558 (2005).

6- Oxygen clamps in gold nanowires.

Frederico D. Novaes, A.J.R. da Silva, E. Z. da Silva e A. Fazzio, Phys. Rev. Lett., 96, 016104 (2006).

7- Symmetry Controlled Spin Polarized Conductance in Au Nanowires.

R. B. Pontes, E. Z. da Silva, Adalberto Fazzio e Antônio J. R. da Silva

Jour. American Chemical Society, 130 (30), 9897 – 9903, (2008).

8- Helical [110] Gold Nanowires Make Longer Linear Atomic Chains.

E.P.M. Amorim e E. Z. da Silva, Physical Review Letters, 101, 125502 (2008).

9- Defect-mediated half-metal behavior in zigzag graphene nanoribbons.

R.Y. Oeiras, F.M. Araujo-Moreira, e E.Z. da Silva, Phys. Rev. B, 80 (7), 073405 (2009).

10- Cold Welding of Gold and Silver Nanowires: A Molecular Dynamics Study.

S. Pereira e E. Z. da Silva, Journal of Physical Chemistry-C, 115, 22870-22876 (2011).

11- Effect of light impurities on the electronic structure of copper nanowires.

E.P.M. Amorim e E. Z. da Silva, Physical Review B, 85, 155407 (2012).

12- Unveiling the Origin of Oxygen Atomic Impurities in Au Nanowires.

P. F. Nascimento, Miguel A. San-Miguel, e E. Z. da Silva, Physical Review B, 89, 085417 (2014).

13- Elucidating the real-time Ag nanoparticle growth on α-Ag2WO4 during eléctron beam irradiation: Experimental evidence and theoretical insights.

da Silva Pereira, J. Andres, Lourdes Gracia, M. A. San-Miguel, E. Z. da Silva, E. Longo, e V. M. Longo, Physical Chemistry Chemical Physics, 17, 5352, (2015).

14- Connecting Theory with Experiment to Understand the Sintering Processes of Ag Nanoparticles.

Edison Z. da Silva, Giovani M. Faccin, Thales R. Machado, Marcelo de Assis, Nadia G.

Macedo, Júlio C. Sczancoski, Santiago Maya-Johnson, Juan Andrés, Elson Longo and

Miguel A. San-Miguel.J. Phys. Chem. C, 123 (17), 10703-11328 (2019)

Destaque de capa do Volume 123, Fascículo 17.

15- Spontaneous Symmetry Breaking in Cyclo[18]Carbon.

Zenner Silva Pereira, and Edison Zacarias da Silva, J. Phys. Chem. A, 124, 1152-1157 (2020)

16- Induced magnetization in Cu atoms at the Fe-Co/Cu3Au(001) interface: X-ray magnetic circular dichroism experiments and theoretical results.

S.O. Parreiras, L.A. Cabral, R.V. Lourenço, A. A.C. Cotta, P. Schio, J.C. Cezar, P.L.Gastelois,  E.Z. da Silva,  W.A.A. Macedo, 

Applied Surface Science 548, 149215 (2021).

DOI : https://doi.org/10.1016/j.apsusc.2021.149215

17- How Crystallization Affects the Oriented Attachment of Silver  Nanoparticles.

Giovani M. Faccin, Zenner S. Pereira, and E. Z. da Silva.

The Journal of Physical Chemistry C 125, (12), 6812–6820, (2021).

DOI: 10.1021/acs.jpcc.0c10321

Destaque de capa do Volume 125, Fascículo 12.

18- Predicted Superconductivity in Electride Li5C.

Zenner S. Pereira, Giovani M. Faccin, and E. Z. da Silva.

The Journal of Physical Chemistry C 125 (16), 8899-8906 (2021).

URL: https://doi.org/10.1021/acs.jpcc.1c02329

Destaque de capa do Volume 125, Fascículo 16.

19- Strain-induced Multigap Superconductivity in Electrene Mo2N: A first Principles

Study.

Zenner Silva Pereira, Giovani M. Faccin, Edison Z. da Silva.

 Nanoscale, 14, (24), 8549-8600 (2022)

https://doi.org/10.1039/D2NR00395C

https://pubs.rsc.org/en/content/articlepdf/2022/nr/d2nr00395c

Destaque de capa do Volume 114, Fascículo 24.

20.

Disentangling the effects of laser and electron irradiation on AgX (X=Cl, Br and

 I): insights from quantum chemical calculations.

Luis Cabral, Edson R. Leite, Elson Longo, Miguel A. San-Miguel, Edison Z. da

 Silva, Juan Andrés,

Nano Letters 24, 10, 3021-3027 (2024).

https://doi.org/10.1021/acs.nanolett.3c04130

Destaque de capa principal , Volume 24, Fascículo 10.

 

 

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