In Situ Transmission Electron Microscopy of Cadmium Selenide Nanorod Sublimation
Article 2015 en
Authors
DH
Daniel J. Hellebusch
KM
Karthish Manthiram
BB
Brandon J. Beberwyck
Abstract
1 min read
In situ electron microscopy is used to observe the morphological evolution of cadmium selenide nanorods as they sublime under vacuum at a series of elevated temperatures. Mass loss occurs anisotropically along the nanorod's long axis. At temperatures close to the sublimation threshold, the phase change occurs from both tips of the nanorods and proceeds unevenly with periods of rapid mass loss punctuated by periods of relative stability. At higher temperatures, the nanorods sublime at a faster, more uniform rate, but mass loss occurs from only a single end of the rod. We propose a mechanism that accounts for the observed sublimation behavior based on the terrace-ledge-kink (TLK) model and how the nanorod surface chemical environment influences the kinetic barrier of sublimation.
Matthew R. Hauwiller, Xingchen Ye, Matthew R. Jones, Cindy M. Chan, Jason J. Calvin, Michelle F. Crook, Haimei Zheng, Paul Alivisatos, Matthew R. Hauwiller, Xingchen Ye, Matthew R. Jones, Cindy M. Chan, Jason J. Calvin, Michelle F. Crook, Haimei Zheng, Paul Alivisatos
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