Two Purely Inorganic Cationic Tellurite Materials Based on Group IB Metal Tetrafluoroborates with Similar Lamellar Cationic Layers: [Cu2F(Te2O5)](BF4) and [Ag18O2(Te4O9)4(Te3O8)(BF4)2]·2HBF4

Tong Su; Meiqiao Wei; Hanqing Liu; Yunshan Fang; Qiong Wu; Zhehui Weng; Jie Ling; Renjie Chen; Yulan Wang; Xiusha Zhao; Haidong Ju

doi:10.1021/acs.inorgchem.3c00856

Two Purely Inorganic Cationic Tellurite Materials Based on Group IB Metal Tetrafluoroborates with Similar Lamellar Cationic Layers: [Cu₂F(Te₂O₅)](BF₄) and [Ag₁₈O₂(Te₄O₉)₄(Te₃O₈)(BF₄)₂]·2HBF₄

Inorg Chem. 2023 Jun 26;62(25):9882-9891. doi: 10.1021/acs.inorgchem.3c00856. Epub 2023 Jun 14.

Authors

Tong Su^{1

2}, Meiqiao Wei¹, Hanqing Liu², Yunshan Fang¹, Qiong Wu¹, Zhehui Weng¹, Jie Ling³, Renjie Chen¹, Yulan Wang¹, Xiusha Zhao¹, Haidong Ju¹

Affiliations

¹ Yunnan Key Laboratory of Metal-Organic Molecular Materials and Device, School of Chemistry and Chemical Engineering and Innovative Research Teams in Science and Technology in the University of Yunnan Province (IRTSTYN), Kunming University, Yunnan 650214, China.
² Polytechnical Center, Ruili Customs, Yunnan 678600, China.
³ Department of Chemistry, University of Alabama in Huntsville, Materials Science Building, John Wright Drive, Huntsville, Alabama 35899, United States.

PMID: 37314892
DOI: 10.1021/acs.inorgchem.3c00856

Abstract

Two new purely inorganic cationic tellurite networks of Group IB metal-based tetrafluoroborates, namely, [Cu₂F(Te₂O₅)](BF₄), 1, and [Ag₁₈O₂(Te₄O₉)₄(Te₃O₈)(BF₄)₂]·2HBF₄, 2, have been hydrothermally synthesized under mild conditions. The prepared materials have been characterized by single-crystal X-ray diffraction, powder X-ray diffraction, IR and Raman spectroscopy, SEM-energy-dispersive spectroscopy, UV-vis-NIR diffuse reflectance, magnetic study, and TG analyses. Single-crystal diffraction studies show that both materials have similar cationic Cu/Ag tellurite layers with tetrafluoroborates as interlamellar charge-balancing anions. Magnetic results indicate that [Cu₂F(Te₂O₅)](BF₄), 1, exhibits a mainly short-range antiferromagnetic ordering within the 2D layer, and further detailed analysis of magnetic susceptibility analysis confirms a spin-singlet ground state with an energy gap of 85 K.