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1. Antiferromagnetic semiconductor Eu ₃ Sn ₂ P ₄ with Sn–Sn dimer and crown-wrapped Eu

   https://doi.org/10.1039/C9TC03557E  

   Blawat, Joanna; Swatek, Przemyslaw; Gui, Xin; Jin, Rongying; Xie, Weiwei (October 2019, Journal of Materials Chemistry C)

   A novel antiferromagnetic semiconductor, Eu 3 Sn 2 P 4 , has been discovered. Single crystals of Eu 3 Sn 2 P 4 were prepared using the Sn self-flux method. The crystal structure determined by single crystal X-ray diffraction shows that Eu 3 Sn 2 P 4 crystallizes in the orthorhombic structure with the space group Cmca (Pearson Symbol, oP 216). Six Sn–Sn dimers connected by P atoms form a Sn 12 P 24 crown-shaped cluster with a Eu atom located in the center. Magnetization measurements indicate that the system orders antiferromagnetically below a T N ∼14 K at a low field and undergoes a metamagnetic transition at a high field when T < T N . The effective magnetic moment is 7.41(3) μ B per Eu, corresponding to Eu 2+ . The electric resistivity reveals a non-monotonic temperature dependence with non-metallic behavior below ∼60 K, consistent with the band structure calculations. By fitting the data using the thermally activated resistivity formula, we estimate the energy gap to be ∼0.14 eV. Below T N , the resistivity tends to saturate, suggesting the reduction of charge-spin scattering. 

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2. Disproportionation of Sn(II){CH(SiMe ₃ ) ₂ } ₂ to ·Sn(III){CH(SiMe ₃ ) ₂ } ₃ and ·Sn(I){CH(SiMe ₃ ) ₂ }: Characterization of the Sn(I) Product

   https://doi.org/10.1039/d3cc01542d  

   Mears, Kristian; Nguyen, Gia-Ann; Ruiz, Bronson; Zou, Wenxing; Fettinger, James C; Power, Philip P (May 2023, Chemical Communications)

   Half a century since the photocatalytic disproportionation of Lappert's dialkyl stannylene SnR 2 , R = CH(SiMe 3 ) 2 (1) gave the persistent trivalent radical [·SnR 3 ], the characterization of the corresponding Sn(I) product, ·SnR is now described. It was isolated as the hexastannaprismane Sn 6 R 6 (2), from the reduction of 1 by the Mg(I)-reagent, Mg(BDI Dip ) 2 , (BDI = (DipNCMe) 2 CH, Dip + 2,6-diisopropylphenyl). 

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3. On the structure of heptalithium distannide: Li₇Sn₂ or Li_7−xSn₂ (0.3 < x < 0.5)

   https://doi.org/10.1039/D5DT01022E  

   Rahman, Salina; Ghosh, Kowsik; Ovchinnikov, Alexander; Nandakumar, Anirudh; Chan, Candace K; Bobev, Svilen (July 2025, Dalton Transactions)

   New structural insights into Li_7−xSn₂reveal partial/vacant Li occupancy. 

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4. Crystallization of the P ₃ Sn ₄ Phase upon Cooling P ₂ Sn ₅ Liquid by Molecular Dynamics Simulation Using a Machine Learning Interatomic Potential

   https://doi.org/10.1021/acs.jpcc.0c08873  

   Zhang, Chao; Sun, Yang; Wang, Hai-Di; Zhang, Feng; Wen, Tong-Qi; Ho, Kai-Ming; Wang, Cai-Zhuang (February 2021, The Journal of Physical Chemistry C)

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5. Structural and thermal properties of Eu ₂ Ga ₁₁ Sn ₃₅

   https://doi.org/10.1063/5.0119852  

   Gunatilleke, Wilarachchige D.; Zhang, Mingjian; Wong-Ng, Winnie; Zavalij, Peter; Chen, Yu-Sheng; Nolas, George S. (March 2023, Journal of Applied Physics)

   Clathrates have been reported to form in a variety of different structure types; however, inorganic clathrate-I materials with a low-cation concentration have yet to be investigated. Furthermore, tin-based compositions have been much less investigated as compared to silicon or germanium analogs. We report the temperature-dependent structural and thermal properties of single-crystal Eu 2 Ga 11 Sn 35 revealing the effect of structure and composition on the thermal properties of this low-cation clathrate-I material. Specifically, low-temperature heat capacity, thermal conductivity, and synchrotron single-crystal x-ray diffraction reveal a departure from Debye-like behavior, a glass-like phonon mean-free path for this crystalline material, and a relatively large Grüneisen parameter due to the dominance of low-frequency Einstein modes. Our analyses indicate thermal properties that are a direct result of the structure and composition of this clathrate-I material. 

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