探索碱金属阳离子在钍基硫酸盐配合物自组装过程中的作用

Huang Jie Lu; Jian Qiang Wang; Jian Lin

doi:10.7538/hhx.2022.YX.2021099

探索碱金属阳离子在钍基硫酸盐配合物自组装过程中的作用

Translated title of the contribution: Explore Role of Alkali Cations in Self-Assembly of Thorium Sulfate Complexes

Huang Jie Lu
, Jian Qiang Wang
, Jian Lin

School of Energy and Power Engineering

Chinese Academy of Sciences

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

Abstract

The self-assembly of thorium complexes can be largely affected by ligand, while the role of alkali cations in the self-assembly requires further exploration. In this work, a series of thorium sulfate complexes were obtained by adding different alkali metal cations in the reactions, showing that alkali cations play a significant role in determining the topology and the hydrolysis product of thorium complexes. Single crystal X-ray diffraction analyses reveal that the incorporations of K⁺ and Cs⁺ ions result in a series of thorium sulfate structures with different dimensionalites, which include 1D chain, 2D layered network, and 3D frameworks. The larger Cs⁺ ion promotes the formation of two-dimensional layered topology and a rare [Th₃(μ₃-O)]¹⁰⁺ trimeric polynuclear center. Rather than playing an innocent role in directing the structure, this work shows that alkali counterions affect both the overall topology and the nucleation of affording complexes.

Translated title of the contribution	Explore Role of Alkali Cations in Self-Assembly of Thorium Sulfate Complexes
Original language	Chinese (Traditional)
Pages (from-to)	141-149
Number of pages	9
Journal	He-Huaxue yu Fangshe Huaxue/Journal of Nuclear and Radiochemistry
Volume	44
Issue number	2
DOIs	https://doi.org/10.7538/hhx.2022.YX.2021099
State	Published - 20 Apr 2022

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title = "探索碱金属阳离子在钍基硫酸盐配合物自组装过程中的作用",

abstract = "The self-assembly of thorium complexes can be largely affected by ligand, while the role of alkali cations in the self-assembly requires further exploration. In this work, a series of thorium sulfate complexes were obtained by adding different alkali metal cations in the reactions, showing that alkali cations play a significant role in determining the topology and the hydrolysis product of thorium complexes. Single crystal X-ray diffraction analyses reveal that the incorporations of K+ and Cs+ ions result in a series of thorium sulfate structures with different dimensionalites, which include 1D chain, 2D layered network, and 3D frameworks. The larger Cs+ ion promotes the formation of two-dimensional layered topology and a rare [Th3(μ3-O)]10+ trimeric polynuclear center. Rather than playing an innocent role in directing the structure, this work shows that alkali counterions affect both the overall topology and the nucleation of affording complexes.",

keywords = "Alkali metals, Complex, Sulfate, Thorium",

author = "Lu, \{Huang Jie\} and Wang, \{Jian Qiang\} and Jian Lin",

year = "2022",

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doi = "10.7538/hhx.2022.YX.2021099",

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T1 - 探索碱金属阳离子在钍基硫酸盐配合物自组装过程中的作用

AU - Lu, Huang Jie

AU - Wang, Jian Qiang

AU - Lin, Jian

PY - 2022/4/20

Y1 - 2022/4/20

N2 - The self-assembly of thorium complexes can be largely affected by ligand, while the role of alkali cations in the self-assembly requires further exploration. In this work, a series of thorium sulfate complexes were obtained by adding different alkali metal cations in the reactions, showing that alkali cations play a significant role in determining the topology and the hydrolysis product of thorium complexes. Single crystal X-ray diffraction analyses reveal that the incorporations of K+ and Cs+ ions result in a series of thorium sulfate structures with different dimensionalites, which include 1D chain, 2D layered network, and 3D frameworks. The larger Cs+ ion promotes the formation of two-dimensional layered topology and a rare [Th3(μ3-O)]10+ trimeric polynuclear center. Rather than playing an innocent role in directing the structure, this work shows that alkali counterions affect both the overall topology and the nucleation of affording complexes.

AB - The self-assembly of thorium complexes can be largely affected by ligand, while the role of alkali cations in the self-assembly requires further exploration. In this work, a series of thorium sulfate complexes were obtained by adding different alkali metal cations in the reactions, showing that alkali cations play a significant role in determining the topology and the hydrolysis product of thorium complexes. Single crystal X-ray diffraction analyses reveal that the incorporations of K+ and Cs+ ions result in a series of thorium sulfate structures with different dimensionalites, which include 1D chain, 2D layered network, and 3D frameworks. The larger Cs+ ion promotes the formation of two-dimensional layered topology and a rare [Th3(μ3-O)]10+ trimeric polynuclear center. Rather than playing an innocent role in directing the structure, this work shows that alkali counterions affect both the overall topology and the nucleation of affording complexes.

KW - Alkali metals

KW - Complex

KW - Sulfate

KW - Thorium

UR - https://www.scopus.com/pages/publications/85129396792

U2 - 10.7538/hhx.2022.YX.2021099

DO - 10.7538/hhx.2022.YX.2021099

M3 - 文章

AN - SCOPUS:85129396792

SN - 0253-9950

VL - 44

SP - 141

EP - 149

JO - He-Huaxue yu Fangshe Huaxue/Journal of Nuclear and Radiochemistry

JF - He-Huaxue yu Fangshe Huaxue/Journal of Nuclear and Radiochemistry

IS - 2

ER -

探索碱金属阳离子在钍基硫酸盐配合物自组装过程中的作用

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