Thermogravimetric research of hydrogen storage materials

J. Kleperis; L. Grinberga; M. Ergle; G. Chikvaidze; J. Klavins

doi:10.1088/1742-6596/93/1/012027

Thermogravimetric research of hydrogen storage materials

J. Kleperis^*
, L. Grinberga
, M. Ergle
, G. Chikvaidze
, J. Klavins

^*Corresponding author for this work

University of Latvia

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

During thermogravimetric research of metal hydrides we noticed mass growth of samples above 200°C even in an argon atmosphere. Further heating is leading to the growth of weight up to 2-7 weight% till 500°C. Second run of the same sample without taking out of DTA instrument gave only small mass changes, indicating that noticed mass increase during first run is permanent. Microscope and elemental analyses were made to determine the reason of mass growth. XRD inspection revealed the formation of new phase with bunsenite NiO structure with deformed cubic structure. The new phase is no more active to hydrogen sorption/desorption. Our results demonstrated that the usage of hydrogen storage alloys AB₅ must be taken with care - it is important not to exceed some critical temperature were irreversible structural, compositional and morphological changes will occur.

Original language	English
Article number	012027
Journal	Journal of Physics: Conference Series
Volume	93
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/93/1/012027
Publication status	Published - 1 Dec 2007

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title = "Thermogravimetric research of hydrogen storage materials",

abstract = "During thermogravimetric research of metal hydrides we noticed mass growth of samples above 200°C even in an argon atmosphere. Further heating is leading to the growth of weight up to 2-7 weight\% till 500°C. Second run of the same sample without taking out of DTA instrument gave only small mass changes, indicating that noticed mass increase during first run is permanent. Microscope and elemental analyses were made to determine the reason of mass growth. XRD inspection revealed the formation of new phase with bunsenite NiO structure with deformed cubic structure. The new phase is no more active to hydrogen sorption/desorption. Our results demonstrated that the usage of hydrogen storage alloys AB5 must be taken with care - it is important not to exceed some critical temperature were irreversible structural, compositional and morphological changes will occur.",

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AU - Kleperis, J.

AU - Grinberga, L.

AU - Ergle, M.

AU - Chikvaidze, G.

AU - Klavins, J.

PY - 2007/12/1

Y1 - 2007/12/1

N2 - During thermogravimetric research of metal hydrides we noticed mass growth of samples above 200°C even in an argon atmosphere. Further heating is leading to the growth of weight up to 2-7 weight% till 500°C. Second run of the same sample without taking out of DTA instrument gave only small mass changes, indicating that noticed mass increase during first run is permanent. Microscope and elemental analyses were made to determine the reason of mass growth. XRD inspection revealed the formation of new phase with bunsenite NiO structure with deformed cubic structure. The new phase is no more active to hydrogen sorption/desorption. Our results demonstrated that the usage of hydrogen storage alloys AB5 must be taken with care - it is important not to exceed some critical temperature were irreversible structural, compositional and morphological changes will occur.

AB - During thermogravimetric research of metal hydrides we noticed mass growth of samples above 200°C even in an argon atmosphere. Further heating is leading to the growth of weight up to 2-7 weight% till 500°C. Second run of the same sample without taking out of DTA instrument gave only small mass changes, indicating that noticed mass increase during first run is permanent. Microscope and elemental analyses were made to determine the reason of mass growth. XRD inspection revealed the formation of new phase with bunsenite NiO structure with deformed cubic structure. The new phase is no more active to hydrogen sorption/desorption. Our results demonstrated that the usage of hydrogen storage alloys AB5 must be taken with care - it is important not to exceed some critical temperature were irreversible structural, compositional and morphological changes will occur.

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DO - 10.1088/1742-6596/93/1/012027

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VL - 93

JO - Journal of Physics: Conference Series

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ER -

Thermogravimetric research of hydrogen storage materials

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