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Three-dimensional nitrine copper-nickel coordination compound and method of preparing the same

A coordination compound, three-dimensional technology, applied in the direction of nickel organic compound, copper organic compound, inorganic material magnetism, etc., to achieve the effect of good application prospects

Inactive Publication Date: 2009-04-08
NANKAI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, the design and construction of such molecular-based magnetic materials with special structures and properties is an innovative technology, which is very challenging. The synthesis and exploration of such materials, especially the use of other types of organic ligands as raw materials to synthesize such ligands Bit compounds will have a great impact on this research field, and then on the development of high-performance new materials, and inject strong vitality into the field of material science

Method used

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  • Three-dimensional nitrine copper-nickel coordination compound and method of preparing the same
  • Three-dimensional nitrine copper-nickel coordination compound and method of preparing the same
  • Three-dimensional nitrine copper-nickel coordination compound and method of preparing the same

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Embodiment 1

[0015] Dissolve isonicotinic acid (0.75 mmol), cupric chloride (0.5 mmol), nickel chloride (2 mmol) and sodium azide (2 mmol) in water and stir evenly and seal them in a hot axe; at 140 After two days of heat preservation at ℃, the temperature was naturally cooled to room temperature to obtain massive crystals.

Embodiment 2

[0017] Dissolve isonicotinic acid (0.5 mmol), cupric chloride (0.75 mmol), nickel chloride (1.5 mmol) and sodium azide (2 mmol) in water and stir evenly and seal them in a water heat axe; After two days of heat preservation at ℃, the temperature was naturally cooled to room temperature to obtain massive crystals.

[0018] The main infrared absorption peak of the compound that embodiment 1, 2 makes is 3416cm -1 , 2081cm -1 , 1639cm -1 , 1617cm -1 , 1551cm -1 , 1462cm -1 , 1132cm -1 , 1020cm -1 , 849cm -1 , 771cm -1 , 617cm -1 , 476cm -1 .

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Abstract

The invention relates a three-dimensional azido copper-nickel coordination compound which contains a three-dimensional network structure with a one-dimensional pore canal. A secondary structural unit of the three-dimensional azido copper-nickel coordination compound is a crystal which pertains to a monoclinic system with the space group of C2 / c; an azido-bridged copper-nickel unit forms a one-dimensional chain with which univalent anions of isonicotinic acid is connected to form a three-dimensional network and during the connection process, a one-dimensional pore canal is formed between the anions of isonicotinic acid. The preparation method of the three-dimensional azido copper-nickel coordination compound comprises the steps that isonicotinic acid, copper chloride, nickelous chloride and sodium azide are dissolved in 15ml of water to produce massive crystals of the three-dimensional azido copper-nickel coordination compound through a hydro-thermal reaction. The three-dimensional azido copper-nickel coordination compound has the advantages of magnetism and magnetic variation and can be applied as molecule-based magnetic materials, thus having good application prospect in the field of material science.

Description

【Technical field】 [0001] The invention belongs to the technical field of synthesis of molecular-based magnetic materials, in particular to a three-dimensional azide copper-nickel coordination compound and a preparation method thereof. 【Background technique】 [0002] In recent years, the design and synthesis of molecular-based materials with specific structures and physical functions has attracted great interest (You Xiaozeng, Molecular Materials-Photoelectric Functional Compounds, Shanghai Science and Technology Press, 2001; Zhu Daoben, Progress in Chemistry of Functional Materials, Chemistry Industry Press, 2005; Hong Maochun, Chen Rong, Liang Wenping, Inorganic Chemistry in the 21st Century, Science Press, 2005; Larsson, K. Molecule-Based Materials: The Structural Network Approach, Elsevier B.V.: Amsterdam, 2005; Li Hui, Coordination Chemistry, Chemical Industry Press, 2006). It is different from traditional inorganic materials. When molecules are aggregated into a solid,...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C07F15/04C07F1/08H01F1/01
Inventor 卜显和赵炯鹏胡博文杨乾
Owner NANKAI UNIV
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