Synthesis and formation mechanism of micro/nano flower-like MgCO3·5H2O
来源期刊:International Journal of Minerals Metallurgy and Materials2014年第3期
论文作者:Wan-zhong Yin Yu-lian Wang Qiang-dong Ji Jin Yao Ying Hou Lei Wang Wen-xing Zhong
文章页码:304 - 310
摘 要:Micro/nano magnesium carbonate pentahydrate(MgCO3 ·5H2 O) with flower-like morphology was synthesized using magnesite as a substrate and potassium dihydrogen phosphate as an additive. The synthesized samples were characterized by scanning electron microscopy, X-ray diffraction, Fourier transform infrared spectroscopy, thermogravimetry and differential scanning calorimetry. The influence of pyrolysis time on crystal morphology was explored. The formation mechanism was investigated on the basis of the characterized results and the crystal structure of MgCO3 ·5H2 O. The results showed that the flower-like MgCO3 ·5H2 O was 1.5-3.0 μm in length and 100-500 nm in diameter and was successfully obtained with a pyrolysis time of 30 min. The formation mechanism of flower-like MgCO3 ·5H2 O is suggested to be the selective adsorption of potassium dihydrogen phosphate on the surface. The process of flower-like crystal growth is as follows: amorphous nanoparticles formation, acicular and rod monocrystal formation, flower-like monocrystal formation, and flower-like polymers(MgCO3 ·5H2 O) crystallization. In the MgCO3 ·5H2 O crystal, the magnesium ion presents two different octahedral coordinations corresponding to2 26 Mg(H O)+and2 2 2 4 23 [Mg(H O)(CO) ]--, and the chemical formula of the crystal is2 2 6 2 4 23 Mg(H O) Mg(H O)(CO)2.
Wan-zhong Yin1,Yu-lian Wang1,Qiang-dong Ji1,Jin Yao1,Ying Hou1,Lei Wang2,Wen-xing Zhong1
1. School of Resources & Civil Engineering, Northeastern University2. Mining, Metallurgy &Materials Research Institute, General Research Institute for Nonferrous Metals Beijing
摘 要:Micro/nano magnesium carbonate pentahydrate(MgCO3 ·5H2 O) with flower-like morphology was synthesized using magnesite as a substrate and potassium dihydrogen phosphate as an additive. The synthesized samples were characterized by scanning electron microscopy, X-ray diffraction, Fourier transform infrared spectroscopy, thermogravimetry and differential scanning calorimetry. The influence of pyrolysis time on crystal morphology was explored. The formation mechanism was investigated on the basis of the characterized results and the crystal structure of MgCO3 ·5H2 O. The results showed that the flower-like MgCO3 ·5H2 O was 1.5-3.0 μm in length and 100-500 nm in diameter and was successfully obtained with a pyrolysis time of 30 min. The formation mechanism of flower-like MgCO3 ·5H2 O is suggested to be the selective adsorption of potassium dihydrogen phosphate on the surface. The process of flower-like crystal growth is as follows: amorphous nanoparticles formation, acicular and rod monocrystal formation, flower-like monocrystal formation, and flower-like polymers(MgCO3 ·5H2 O) crystallization. In the MgCO3 ·5H2 O crystal, the magnesium ion presents two different octahedral coordinations corresponding to2 26 Mg(H O)+and2 2 2 4 23 [Mg(H O)(CO) ]--, and the chemical formula of the crystal is2 2 6 2 4 23 Mg(H O) Mg(H O)(CO)2.
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