We report on the size-dependent melting of nanowires with finite length based on the thermodynamic as well as liquid drop model. It has been inferred that the length dependency cannot be ignored, unlike the case of infinite length nanowires. To validate the length dependency, we have analyzed a few experimental results reported in the literature
Simple theoretical model has been proposed to study the size dependence of thermodyamic properties i...
We have analyzed the expressed manifestation of the anisotropy of surface energy density in the dyna...
International audienceThe size dependence of the phase diagram of nanoalloys with a tendency to phas...
We report on the size-dependent melting of nanowires with finite length based on the thermodynamic a...
We have investigated the size-dependent melting of nanotubes based on a thermodynamic approach and s...
The melting process of nickel nanowires are simulated by using molecular dynamics with the quantum S...
A semi-empirical thermodynamic model for size dependency of melting point of nano particles and wire...
Thermodynamic model first published in 1909, is being used extensively to understand the size-depend...
A careful comparison of the experimental results reported in the literature reveals different variat...
In a recent letter, Wang et al.1 have reported the sizedependent melting of Zn nanowires. A nonlinea...
All most all theoretical models assume spherical nanoparticles. However, thermodynamic properties of...
Models of melting taking into account the finite material size (as for example the diameter of a sph...
We investigated how the finiteness of the length of the sequence affects the phase transition that t...
Nanostructures like nanotubes, nanowires, nanobelts and nanoclusters have amazing mechanical, electr...
Molecular dynamics simulation have shown that after initial surface melting, nanowires can melt via ...
Simple theoretical model has been proposed to study the size dependence of thermodyamic properties i...
We have analyzed the expressed manifestation of the anisotropy of surface energy density in the dyna...
International audienceThe size dependence of the phase diagram of nanoalloys with a tendency to phas...
We report on the size-dependent melting of nanowires with finite length based on the thermodynamic a...
We have investigated the size-dependent melting of nanotubes based on a thermodynamic approach and s...
The melting process of nickel nanowires are simulated by using molecular dynamics with the quantum S...
A semi-empirical thermodynamic model for size dependency of melting point of nano particles and wire...
Thermodynamic model first published in 1909, is being used extensively to understand the size-depend...
A careful comparison of the experimental results reported in the literature reveals different variat...
In a recent letter, Wang et al.1 have reported the sizedependent melting of Zn nanowires. A nonlinea...
All most all theoretical models assume spherical nanoparticles. However, thermodynamic properties of...
Models of melting taking into account the finite material size (as for example the diameter of a sph...
We investigated how the finiteness of the length of the sequence affects the phase transition that t...
Nanostructures like nanotubes, nanowires, nanobelts and nanoclusters have amazing mechanical, electr...
Molecular dynamics simulation have shown that after initial surface melting, nanowires can melt via ...
Simple theoretical model has been proposed to study the size dependence of thermodyamic properties i...
We have analyzed the expressed manifestation of the anisotropy of surface energy density in the dyna...
International audienceThe size dependence of the phase diagram of nanoalloys with a tendency to phas...
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