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Pores Shrinkage and Growth in Polycrystalline Hollow Nanoparticles and Nanotubes

AMI: Scripta Materialia

15 Pages Posted: 13 Nov 2019 Publication Status: Accepted

See all articles by Leonid Klinger

Leonid Klinger

Technion-Israel Institute of Technology - Department of Materials Science and Engineering

Graeme E. Murch

The University Centre for Mass and Thermal Transport in Engineering Materials School of Engineering, The University of Newcastle

Irina V. Belova

The University Centre for Mass and Thermal Transport in Engineering Materials School of Engineering, The University of Newcastle

Eugen Rabkin

Technion-Israel Institute of Technology - Department of Materials Science and Engineering

Abstract

We propose a model of internal pore shrinkage in hollow polycrystalline nanoparticles controlled by surface and grain boundary diffusion. The latter significantly accelerates the pore shrinkage as compared to single crystalline nanoparticles. Moreover, further shrinkage acceleration is achieved by allowing material accretion/depletion at the grain boundaries and concomitant drift of the grains lattice toward the center of the particle. Our model predicts that above a certain critical number of grain boundaries in the particle the central pore becomes thermodynamically stable and cannot be removed by annealing.

Keywords: nanostructure, grain boundary diffusion, hollow nanoparticles

Suggested Citation

Klinger, Leonid and Murch, Graeme E. and Belova, Irina V. and Rabkin, Eugen, Pores Shrinkage and Growth in Polycrystalline Hollow Nanoparticles and Nanotubes (November 11, 2019). Available at SSRN: https://ssrn.com/abstract=3484679 or http://dx.doi.org/10.2139/ssrn.3484679

Leonid Klinger

Technion-Israel Institute of Technology - Department of Materials Science and Engineering ( email )

Technion City
Haifa 32000, Haifa 32000
Israel

Graeme E. Murch

The University Centre for Mass and Thermal Transport in Engineering Materials School of Engineering, The University of Newcastle

Australia

Irina V. Belova

The University Centre for Mass and Thermal Transport in Engineering Materials School of Engineering, The University of Newcastle ( email )

Australia

Eugen Rabkin (Contact Author)

Technion-Israel Institute of Technology - Department of Materials Science and Engineering

Technion City
Haifa 32000, Haifa 32000
Israel

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