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1. Structure and Bonding in [Sb@In ₈ Sb ₁₂ ] ³⁻ and [Sb@In ₈ Sb ₁₂ ] ⁵⁻

   https://doi.org/10.1002/anie.201904109  

   Liu, Chao; Tkachenko, Nikolay V.; Popov, Ivan A.; Fedik, Nikita; Min, Xue; Xu, Cong-Qiao; Li, Jun; McGrady, John E.; Boldyrev, Alexander I.; Sun, Zhong-Ming (June 2019, Angewandte Chemie International Edition)
2. Photoluminescent Re ₆ Q ₈ I ₂ (Q = S, Se) Semiconducting Cluster Compounds

   https://doi.org/10.1021/acs.chemmater.1c01696  

   Laing, Craig C.; Shen, Jiahong; Chica, Daniel G.; Cuthriell, Shelby A.; Schaller, Richard D.; Wolverton, Chris; Kanatzidis, Mercouri G. (July 2021, Chemistry of Materials)
3. Chemically driven superstructural ordering leading to giant unit cells in unconventional clathrates Cs ₈ Zn ₁₈ Sb ₂₈ and Cs ₈ Cd ₁₈ Sb ₂₈

   https://doi.org/10.1039/D0SC03846F  

   Owens-Baird, Bryan; Yox, Philip; Lee, Shannon; Carroll, Xian B.; Grass Wang, Suyin; Chen, Yu-Sheng; Lebedev, Oleg I.; Kovnir, Kirill (September 2020, Chemical Science)

   null (Ed.)

   The unconventional clathrates, Cs 8 Zn 18 Sb 28 and Cs 8 Cd 18 Sb 28 , were synthesized and reinvestigated. These clathrates exhibit unique and extensive superstructural ordering of the clathrate-I structure that was not initially reported. Cs 8 Cd 18 Sb 28 orders in the Ia 3̄ d space group (no. 230) with 8 times larger volume of the unit cell in which most framework atoms segregate into distinct Cd and Sb sites. The structure of Cs 8 Zn 18 Sb 28 is much more complicated, with an 18-fold increase of unit cell volume accompanied by significant reduction of symmetry down to P 2 (no. 3) monoclinic space group. This structure was revealed by a combination of synchrotron X-ray diffraction and electron microscopy techniques. A full solid solution, Cs 8 Zn 18−x Cd x Sb 28 , was also synthesized and characterized. These compounds follow Vegard's law in regard to their primitive unit cell sizes and melting points. Variable temperature in situ synchrotron powder X-ray diffraction was used to study the formation and melting of Cs 8 Zn 18 Sb 28 . Due to the heavy elements comprising clathrate framework and the complex structural ordering, the synthesized clathrates exhibit ultralow thermal conductivities, all under 0.8 W m −1 K −1 at room temperature. Cs 8 Zn 9 Cd 9 Sb 28 and Cs 8 Zn 4.5 Cd 13.5 Sb 28 both have total thermal conductivities of 0.49 W m −1 K −1 at room temperature, among the lowest reported for any clathrate. Cs 8 Zn 18 Sb 28 has typical p-type semiconducting charge transport properties, while the remaining clathrates show unusual n–p transitions or sharp increases of thermopower at low temperatures. Estimations of the bandgaps as activation energy for resistivity dependences show an anomalous widening and then shrinking of the bandgap with increasing Cd-content. 

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4. III–V Clathrate Semiconductors with Outstanding Hole Mobility: Cs ₈ In ₂₇ Sb ₁₉ and A ₈ Ga ₂₇ Sb ₁₉ ( A = Cs, Rb)

   https://doi.org/10.1021/jacs.9b12351  

   Owens-Baird, Bryan; Wang, Jian; Wang, Suyin Grass; Chen, Yu-Sheng; Lee, Shannon; Donadio, Davide; Kovnir, Kirill (December 2019, Journal of the American Chemical Society)
5. The Q ₁ Q ₂ Q ₃ Workflow for Statistics and Data Science Collaborations

   https://doi.org/10.1080/26939169.2025.2475775  

   Vance, Eric A; Trumble, Ilana M; Alzen, Jessica L; House, Leanna L (May 2025, Journal of Statistics and Data Science Education)

   We develop, advance, and promote a previously existing framework called the Qualitative-Quantitative-Qualitative workflow (Q1Q2Q3, pronounced “Q-Q-Q”) to systematically guide the content of interdisciplinary collaborations and improve the teaching of statistics and data science. The Q1Q2Q3 workflow is designed to help statisticians and data scientists develop skills and techniques for collaboration to work with domain experts across academic fields, industry sectors, and organizations. The Q1Q2Q3 workflow explicitly emphasizes the importance of the qualitative context of a project, as well as the qualitative interpretation of quantitative findings. We explain Q1Q2Q3 and provide guidance for implementing each stage of the workflow. We describe how we teach Q1Q2Q3 within a statistics and data science collaboration course and present data evaluating its effectiveness. We also describe how Q1Q2Q3 can be useful for educators teaching introductory, projects-based, and technical statistics and data science courses. We believe that the Q1Q2Q3 workflow is an easy-to-implement technique that is beneficial and necessary for statistics and data science education and practice. It can be used to weave ethics into each stage of practice so that statisticians and data scientists can successfully transform evidence into action for the benefit of society. 

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