Hydrothermal Synthesis of Open-Framework Borophosphates with Tunable Micropore Sizes, Crystal Morphologies, and Thermal Stabilities


Thermal stabilities of zeolitic frameworks are important parameters for many applications. Two decades of research have produced only a very small number of zeolitic borophosphates such as Na<sub>2</sub>[VO­(B<sub>2</sub>O)­(PO<sub>4</sub>)<sub>2</sub>(HBO<sub>3</sub>)]·<i>x</i>H<sub>2</sub>O (<i>x</i> <b> ≈ </b> 2.92) (denoted as <b>B</b><sub><b>3</b></sub><b>P</b><sub><b>2</b></sub>), which shows the onset dehydration and a complete decomposition at 200 and 400 °C, respectively. In order to enhance thermal stabilities of borophosphate frameworks, a water-deficient hydrothermal route with phosphoric acid as the sole solvent has been developed and led to controlled syntheses of <b>B</b><sub><b>3</b></sub><b>P</b><sub><b>2</b></sub> and a new vanadium borophosphate, K<sub>1.33</sub>Na<sub>0.67</sub>[VO­(B<sub>2</sub>O)­(PO<sub>4</sub>)<sub>2</sub>(HPO<sub>4</sub>)]·<i>x</i>H<sub>2</sub>O (<i>x</i> <b> ≈ </b> 1.63) (denoted as <b>B</b><sub><b>2</b></sub><b>P</b><sub><b>3</b></sub>). The latter is the first-ever borophosphate possessing the zeolite RHO-type net and is characterized by superlarge spherical cages, including 16-ring and 8-ring channels along the axes and 12-ring channels along the diagonals of the cubic cell. The new compound <b>B</b><sub><b>2</b></sub><b>P</b><sub><b>3</b></sub> has larger structural cages and higher thermal stability than <b>B</b><sub><b>3</b></sub><b>P</b><sub><b>2</b></sub>, where the enhanced thermal stability is attributable to different bonding arising from the substitution of [BO<sub>2</sub>(OH)] by [PO<sub>3</sub>(OH)] in the framework. This is the first demonstration that the micropore size, crystal morphology, and thermal stability of zeolitic borophosphates can be tuned by changing the fundamental building units of their frameworks via adjusting the B/P ratios in the starting materials

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oai:figshare.com:article/2143819Last time updated on 2/12/2018

This paper was published in FigShare.

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