Size-dependent and strain rate effects in quantum dot nanostructures with molecular dynamic simulations
Data(s) |
2009
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Resumo |
Size and strain rate effects are among several factors which play an important role in determining the response of nanostructures, such as their deformations, to the mechanical loadings. The mechanical deformations in nanostructure systems at finite temperatures are intrinsically dynamic processes. Most of the recent works in this context have been focused on nanowires [1, 2], but very little attention has been paid to such low dimensional nanostructures as quantum dots (QDs). In this contribution, molecular dynamics (MD) simulations with an embedded atom potential method(EAM) are carried out to analyse the size and strain rate effects in the silicon (Si) QDs, as an example. We consider various geometries of QDs such as spherical, cylindrical and cubic. We choose Si QDs as an example due to their major applications in solar cells and biosensing. The analysis has also been focused on the variation in the deformation mechanisms with the size and strain rate for Si QD embedded in a matrix of SiO2 [3] (other cases include SiN and SiC matrices).It is observed that the mechanical properties are the functions of the QD size, shape and strain rate as it is in the case for nanowires [2]. We also present the comparative study resulted from the application of different EAM potentials in particular, the Stillinger-Weber (SW) potential, the Tersoff potentials and the environment-dependent interatomic potential (EDIP) [1]. Finally, based on the stabilized structural properties we compute electronic bandstructures of our nanostructures using an envelope function approach and its finite element implementation. |
Formato |
application/pdf |
Identificador |
http://eprints.iisc.ernet.in/40619/1/Size-dependent.pdf Patil, Sunil R and Roy, Mahapatra D and Sutrakar, Vijay K and Melnik, RVN (2009) Size-dependent and strain rate effects in quantum dot nanostructures with molecular dynamic simulations. In: 10th US Congress on Computational Mechanics, July 16-19, 2009, Ohahio, USA. |
Relação |
http://eprints.iisc.ernet.in/40619/ |
Palavras-Chave | #Aerospace Engineering (Formerly, Aeronautical Engineering) |
Tipo |
Conference Paper PeerReviewed |