Issue 48, 2018

Characteristic microstructure underlying the fast hydration–dehydration reaction of β-La2(SO4)3: “fine platy joints” with “loose grain boundaries”

Abstract

The fast hydration/dehydration (water insertion/deinsertion) reaction of β-La2(SO4)3 is expected to be applied to thermochemical heat storage, but its kinetics have not been well understood. In this work, we investigated the microstructure of β-La2(SO4)3 and its contribution to the hydration reaction rate. From specific surface area measurements and transmission electron microscopy, a unique fine microstructure that looks like platy joints in geology was found in β-La2(SO4)3 particles with a plate thickness of several hundred nanometers. There are “loose grain boundaries” where even nitrogen gas can diffuse. This microstructure is formed when β-La2(SO4)3 is synthesized through dehydration of La2(SO4)3·9H2O. The hydration reaction rate of β-La2(SO4)3 was quantitatively evaluated by thermogravimetry. Based on these results, we established a reasonable mechanism for water diffusion in β-La2(SO4)3: water diffuses preferentially through the “loose grain boundaries” in the “platy joints” and is taken in respective crystal grains. The surface reaction on the platy grains presumably determines the rate of the hydration reaction. It is suggested that if we can increase the total surface area of platy grains during the synthesis process of β-La2(SO4)3, a faster rate for the hydration reaction can be expected.

Graphical abstract: Characteristic microstructure underlying the fast hydration–dehydration reaction of β-La2(SO4)3: “fine platy joints” with “loose grain boundaries”

Supplementary files

Article information

Article type
Paper
Submitted
12 Jul 2018
Accepted
18 Nov 2018
First published
21 Nov 2018

J. Mater. Chem. A, 2018,6, 24956-24964

Characteristic microstructure underlying the fast hydration–dehydration reaction of β-La2(SO4)3: “fine platy joints” with “loose grain boundaries”

K. Shizume, N. Hatada, K. Toyoura and T. Uda, J. Mater. Chem. A, 2018, 6, 24956 DOI: 10.1039/C8TA06721J

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