Chemical and Structural Transformations of M–Al–CO3 Layered Double Hydroxides (M = Mg, Zn, or Co, M/Al = 2) at Elevated Temperatures: Quantitative Descriptions and Effect of Divalent Cations

Chemical and Structural Transformations of M–Al–CO3 Layered Double Hydroxides (M = Mg, Zn, or Co, M/Al = 2) at Elevated Temperatures: Quantitative Descriptions and Effect of Divalent Cations

Layered double hydroxides (LDHs) exhibit diverse chemical compositions and are being designed for promising applications such as CO2 adsorbents. Although many researchers have analyzed CO2 gas evolution and structural transformation behavior at elevated temperatures, there are still inconsistencies...

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Veröffentlicht in:Inorganic chemistry 2024-08, Vol.63 (34), p.15634-15647
Hauptverfasser: Matsuda, Kaito, Okuda, Ayaka, Iio, Nana, Tarutani, Naoki, Katagiri, Kiyofumi, Inumaru, Kei
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container_end_page 15647
container_issue 34
container_start_page 15634
container_title Inorganic chemistry
container_volume 63
creator Matsuda, Kaito
Okuda, Ayaka
Iio, Nana
Tarutani, Naoki
Katagiri, Kiyofumi
Inumaru, Kei
description Layered double hydroxides (LDHs) exhibit diverse chemical compositions and are being designed for promising applications such as CO2 adsorbents. Although many researchers have analyzed CO2 gas evolution and structural transformation behavior at elevated temperatures, there are still inconsistencies in results on the effect of different metal ions in LDHs. In this study, on the basis of atomic/molecular-level findings from our previous study on multistep structural/chemical transformation of Mg–Al LDHs, we analyzed the quantitative gas evolution behavior and structural transformations of M–Al–CO3 LDHs with different divalent metal ions (M = Mg, Zn, or Co, M/Al = 2) at elevated temperatures. Our quantitative analysis revealed that all three LDH samples undergo the three-step chemical transformations: release of interlayer water, partial dehydroxylation of the hydroxyl layers, and complete dehydroxylation of layers and decomposition of interlayer CO3 2–. However, the temperature range for each step differs, as do the structural transformations for each sample: the layered structure collapses in the first step for Zn–Al LDH and Co–Al LDH, and the third step for Mg–Al LDH. Our results provide for quantitative and concrete understanding of the effect of divalent metal ions in LDHs on thermal decomposition.
doi_str_mv 10.1021/acs.inorgchem.4c01186
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title Chemical and Structural Transformations of M–Al–CO3 Layered Double Hydroxides (M = Mg, Zn, or Co, M/Al = 2) at Elevated Temperatures: Quantitative Descriptions and Effect of Divalent Cations
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