全文总字数:9836字
1. 毕业设计(论文)的内容和要求
2. 实验内容和要求
IR,TG,EDS
3. 参考文献
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Chem. 2012, 51, 405-413.(10) Liu, J. H.; Lin, L. D.; Wang, G. Q.; Li, L. Y.; Sun, Y. Q.; Li, X. X.; Zheng, S. T. All-inorganic open frameworks based on gigantic four-shell Ln@W8@Ln8@(SiW12)6 clusters. Chem. Commun. 2020, 56, 10305-10308.(11) Peng, J. B.; Zhang, Q. C.; Kong, X. J.; Ren, Y. P.; Long, L. S.; Huang, R. B.; Zheng, L. S.; Zheng, Z. A 48-metal cluster exhibiting a large magnetocaloric effect. Angew. Chem., Int. Ed. 2011, 50, 10649-10652.(12) Chen, W. P.; Liao, P. Q.; Jin, P. B.; Zhang, L.; Ling, B. K.; Wang, S. C.; Chan, Y. T.; Chen, X. M.; Zheng, Y. Z. The Gigantic {Ni36Gd102} Hexagon: A Sulfate-Templated "Star-of-David" for Photocatalytic CO2 Reduction and Magnetic Cooling. J. Am. Chem. Soc. 2020, 142, 4663-4670.(13) Qiao, W.-Z.; Xu, H.; Cheng, P.; Zhao, B. 3d-4f Heterometal朞rganic Frameworks for Efficient Capture and Conversion of CO2. Cryst. Growth Des. 2017, 17, 3128-3133.(14) Darii, M.; Kravtsov, V. 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Commun. 2013, 49, 9728-9730.(18) Lin, Q.; Li, J.; Dong, Y.; Zhou, G.; Song, Y.; Xu, Y. Lantern-shaped 3d-4f high-nuclearity clusters with magnetocaloric effect. Dalton Trans. 2017, 46, 9745-9749.(19) He, X.; Liu, Y.; Lv, Y.; Dong, Y.; Hu, G.; Zhou, S.; Xu, Y. L- and D-[LnZn(IN)3(C2H4O2)]n (Ln = Eu, Sm, and Gd): Chiral Enantiomerically 3D 3d-4f Coordination Polymers Constructed by Interesting Butterfly-like Building Units and -[Ln-O-Zn]n- Helices. Inorg. Chem. 2016, 55, 2048-2054.(20) Wen, H. R.; Hu, J. J.; Yang, K.; Zhang, J. L.; Liu, S. J.; Liao, J. S.; Liu, C. M. Family of Chiral ZnII-LnIII (Ln = Dy and Tb) Heterometallic Complexes Derived from the Amine-Phenol Ligand Showing Multifunctional Properties. Inorg. Chem. 2020, 59, 2811-2824.(21) Luo, X. M.; Hu, Z. B.; Lin, Q. F.; Cheng, W.; Cao, J. P.; Cui, C. H.; Mei, H.; Song, Y.; Xu, Y. Exploring the Performance Improvement of Magnetocaloric Effect Based Gd-Exclusive Cluster Gd60. J. Am. Chem. 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A large cryogenic magnetocaloric effect exhibited at low field by a 3D ferromagnetically coupled MnII-GdIII framework material. Chem. Commun. 2012, 48, 12219-12221.(27) Kong, X. J.; Long, L. S.; Huang, R. B.; Zheng, L. S.; Harris, T. D.; Zheng, Z. A four-shell, 136-metal 3d-4f heterometallic cluster approximating a rectangular parallelepiped. Chem. Commun. 2009, 29, 4354-4356.(28) Leng, J.-D.; Liu, J.-L.; Tong, M.-L. Unique nanoscale {CuII36LnIII24} (Ln = Dy and Gd) metallo-rings. Chem. Commun. 2012, 48, 5286-5288.(29) Peng, J. B.; Zhang, Q. C.; Kong, X. J.; Zheng, Y.-Z.; Ren, Y. P.; Long, L.-S.; Huang, R.-B.; Zheng, L.-S.; Zheng, Z. High-Nuclearity 3d-4f Clusters as Enhanced Magnetic Coolers and Molecular Magnets. J. Am. Chem. Soc. 2012, 134, 3314?317.(30) Li, N. F.; Lin, Q. F.; Luo, X. M.; Cao, J. P.; Xu, Y. Cl--Templated Assembly of Novel Peanut-like Ln40Ni44 Heterometallic Clusters Exhibiting a Large Magnetocaloric Effect. Inorg. 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A single-ligand-protected Eu60nGd(Tb)n cluster: a reasonable new approach to expand lanthanide aggregations. Inorg. Chem. Front. 2020, 7, 2072-2079.
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