Your search keyword '"Jinyu Sun"' showing total 2 results

1. Construction of 3D Layer-Pillared Homoligand Coordination Polymers from a 2D Layered Precursor.

Author

Jinyu Sun, Yarning Zhou, Qianrong Fang, Zhenxia Chen, Linhong Weng, Guangshan Zhu, Shilun Qiu, and Dongyuan Zhao

Subjects

*POLYMERS, *LIGANDS (Chemistry), *DIFFUSION, *SOLUTION (Chemistry), *PRECIPITATION (Chemistry), *PHYSICAL & theoretical chemistry

Abstract

Herein, we present a new method for preparing homoligand 3D coordination polymers. First, a layered metal-organic framework Zn3(BDC)3(H2O)2·4DMF 1 (BDC is terephthalate, DMF is N,N-dimethylformamide) was fabricated from a H2BDC by liquid-liquid diffusion. Second, the layered product, 1, was used as a precursor to solvothermally react with further H2BDC at 140-180 °C, resulting in two products of BDC insertion into the layered structure. These are [Zn3(p-BDC)4]·2HPIP, 2 (HPIP is partly protonated piperazine), and [Zn3(p-BDC)3(H2BDC)]·(C6H15NO)·H2O·3DMF, 3 (C6H15NO is triethylamine N-oxide). Single-crystal X-ray diffraction shows that 2 possesses a layer- pillared structure of μ2-BDC, with 1D channels, while 3 has a layer-pillared structure of μ2-BDC, with 2D channels. N2-sorption experiments show 3 has a relatively high BET surface area of 750 m²/g. It is proposed that 2 follows the crystal growth mechanism of Ostwald ripening, whereas the crystal structure of 3 might be formed by an insertion mechanism. [ABSTRACT FROM AUTHOR]

Published

2006

2. Growth of hierarchical calcium carbonate crystals templated by biomolecules of lotus root.

Author

Fengkai Hu, Quan Zhou, Jinyu Sun, and Hui Zhang

Subjects

*CRYSTAL growth, *CALCIUM carbonate, *CHEMICAL templates, *BIOMOLECULES, *SCANNING electron microscopy, *SOLUTION (Chemistry), *CRYSTALLIZATION

Abstract

In this paper, crystal growth of calcium carbonate CaCO3 in the presence of biomolecules of lotus root was investigated. Scanning electron microscopy, Fourier transform infrared spectroscopy and Xray powder diffractometry were used to characterize the products. The results indicate that calcite spherical particles were constructed from small rhombohedral subunits. Similar CaCO3crystals were also gained when crystal growth of CaCO3in aqueous solution containing extracts of lotus root was performed, suggesting that the soluble biomolecules of lotus root play a crucial role in directing the formation of hierarchical calcite spherical particles. The possible formation mechanism of the CaCO3crystals by using lotus root is also discussed, which can be interpreted by particleaggregation based nonclassical crystallization laws. The biomolecules of lotus root might induce and control the nucleation and growth of calcium carbonate crystals. © 2009 WILEYVCH Verlag GmbH & Co. KGaA, Weinheim [ABSTRACT FROM AUTHOR]

Published

2009