Preparation of nano-t-Se with different particle sizes and particle size dependence of the melting thermodynamics

Spherical nano-selenium of different diameters was prepared and the particle size dependence of the melting thermodynamics of nano-selenium was explored.

Size-dependent melting thermodynamic properties of selenium nanowires in theory and experiment

A new core–shell melting model of nanowires was proposed to explain the size effect on the melting thermodynamics of nanowires.

Size-dependent melting thermodynamics of nanorods in theory and experiment

Compared with other morphological nanomaterials, nanorods have many unique properties that are closely related to their thermal stability.

Effect of Shape and Size on Curie Temperature, Debye Frequency, Melting Entropy and Enthalpy of Nanosolids

The shape and size dependent melting thermodynamics of metallic nanoparticles are predicted by application of bond theory model, free of any adjustable parameter. Thermodynamic properties like Debye frequency, Curie temperature, melting entropy and enthalpy of Al, Sn, In, Cu, β-Fe and Fe3O4 for spherical and non spherical shapes nanoparticles with different size have been studied. In this model, the effects of relaxation factor for the low dimension solids are considered. The depression in Debye frequency, Curie temperature, melting entropy and enthalpy is predicted. The model predictions are supported by the available experimental and simulation results.