Abstract
Two new borates, NaK1.5[B{B5O9(OH)}{B5O8(OH)2}1/2] (1) and Na3.5[Al{B3O6(OH)}{B5O10}1/2{BO(OH)}] (2), have been made by a solvothermal method. Structure 1 is made of two types of oxoboron clusters ([B5O9(OH)]4- and [B5O8(OH)2]3-) and BO4 tetrahedra to form a 3D porous layer, in which the [B5O9(OH)]4- clusters are bridged by BO4 groups to produce a 2D B-O layer with 11-membered ring (MR) windows, while the [B5O8(OH)2]3- clusters as 2-connected pillars join the adjacent B-O layers to make a 3-D porous layer. Structure 2 is built from two types of oxoboron clusters ([B3O6(OH)]4- and [B5O12]9-), AlO4 units and BO2(OH) triangles to produce 3D pillar-layered aluminoborate (ABO), in which the [B5O12]9- clusters are linked together to form a 2-D B-O layer; the [B3O6(OH)]4- clusters and AlO4 groups join each other to form 1D tubular ABO; and the BO2(OH) triangles act as linkers to connect the adjacent B-O layer and the ABO tubes, resulting in 3D pillar-layered ABO. Interestingly, the ABO tubes decorated with the BO2(OH) triangles act as pillars to make a 3D layer-pillared structure. UV-vis diffuse spectra indicate that both have cut-off edges below 190 nm, and the calculated band gaps are 5.75 and 5.78 eV, respectively.
Original language | English |
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Pages (from-to) | 3824-3829 |
Number of pages | 6 |
Journal | Dalton Transactions |
Volume | 49 |
Issue number | 12 |
DOIs | |
Publication status | Published - 28 Mar 2020 |