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86. Proton conductive polyoxometalate architectures constructed from lanthanide-incorporated polyoxoniobate cages.
R.D. Lai, Z.K. Zhu, Y.L. Wu, Y.Q. Sun, S. Cai, X.X. Li,* S.T. Zheng,*. Inorg. Chem, 2022, 61, 21047−21054.
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85. A lanthanide–tellurium heterometal encapsulated sandwich-type heteropolyoxoniobate with a 3D pcu-type hydrogen-bonded network
R.D. Lai, H.L. Feng, Y.Q. Sun,* X.X. Li, S.T. Zheng,*. Dalton Trans, 2022, 51, 10571-10577.
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84. An inorganic-organic hybrid polyoxotungstogermanate based on [Ln( α-GeW11O39)2] dimer and dimethylammonium: Synthesis, crystal structure and photoluminescence property
J.X. Jing, N. Shi, Y.Q. Sun,∗ X.X. Li, S.T. Zheng,*. J. Mol. Struct, 2022, 1250, 131686.
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83. Assemblies of Increasingly Large Ln-Containing Polyoxoniobates and Intermolecular Aggregation-Disaggregation Interconversions,
R.D. Lai, J. Zhang, X.X. Li,* S.T. Zheng,* G.Y. Yang,*. J. Am. Chem. Soc, 2022, 144, 19603-19610.
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82. A Water-Soluble Antimony-Rich Polyoxometalate with Broad-Spectrum Antitumor Activities
H.P. Xiao, Y.S. Hao, X.X. Li,* P. Xu,* M.D. Huang, S.T. Zheng,*. Angew. Chem. Int. Ed, 2022, 61, e202210019.
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81. 铌多酸三维框架材料的研究进展与展望
陈慧娜,李新雄*,郑寿添*, 高等学校化学学报, 2022, 43, 20210625.
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80. Two luminescent metal-organic frameworks with temperature-dependent emission
B.Q. Hong, Y.j. Qi, R.D. Lai, R. Ge, S.T. Zheng, X.X. Li*, J. Solid State Chem, 2022, 309, 122967.
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79. A 3D Indium-containing Polyoxoniobate Framework Based on {In5Nb71}n Helical Pillars
H. Yu, Y.D. Lin, Z.Y. Liu, Y.Q. Sun,* S.T. Zheng,*. Inorg. Chem, 2022, 61, 8112-8116. ​
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78. Designed assembly of heterometallic zeolite-like framework materials from two different superteteahedral metal clusters
S. Peng, Y. Li, R. Ge, W.X. Chen, T.Y. Wang, X.X Li,* S.T. Zheng,*. Chem. Commun, 2022, 6789-6792.
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77. A stable 3d-4f heterometallic cluster with magneto-optical activity
Y. Li, Y.D. Yang, R. Ge, Z.H Lv, C.B Tian, B.W. Wei, X.X. Li,* N.F. Zhuang,* S.T. Zheng,*. Inorg. Chem, 2022, 8746-8751
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76. The largest Se-4f cluster incorporated polyoxometalate with high Lewis acid-base catalytic activity
M.Y. Yao, Y.F. Liu, X.X. Li,* G.P. Yang,* S.T. Zheng,*. Chem. Commun, 2022, 5737-5740.
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75. Two high-nuclearity isopolyoxoniobates containing {Nb54O151}-based helical nanotubes for the decomposition of chemical warfare agent simulants
Y. L. Wu, Y. J. Wang, Y. Q. Sun,* X. X. Li, S. T. Zheng*, Chem. Commun, 2022, 58, 3322-3325.
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74. Two Giant Calixarene-Like Polyoxoniobate Nanocups {Cu12Nb120} and {Cd16Nb128} Built From Mixed Macrocyclic Cluster Motifs
Z.K. Zhu, J. Zhang, Y.C. Cong, R. Ge, Z. Li, X.X. Li*, S.T. Zheng*, Angew. Chem. Int. Ed, 2022, 61, e202113381.
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73. Giant Ln30-Cluster Embedded Polyoxotungstate Nanoclusters with Exceptional Proton-Conducting and Luminescent Properties
Z. Li, Z.H. Lv, H. Yu, Y.Q. Sun, X.X. Li,* S.T. Zheng*, CCS Chem, 2022, 4, 2938-2945.
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72. Recent advances in polyoxoniobate-catalyzed reactions
Z.Y. Liu, Y.D. Lin, H. Yu, H.N. Chen, Z.W. Guo, X.X. Li,* S.T. Zheng,*. Tungsten, 2022, 4, 81-98.
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71. Multicomponent Cooperative Assembly of Nanoscale Boron-Rich Polyoxotungstates with 22 and 30 Boron Atoms
Y. Chen, Z.W Guo, X.X Li, S.T. Zheng,* G.Y. Yang*, CCS Chem, 2022, 4, 1305-1314.
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