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1. New germanate and mixed cobalt germanate salt inclusion materials: [(Rb 6 F)(Rb 4 F)][Ge 14 O 32 ] and [(Rb 6 F)(Rb 3.1 Co 0.9 F 0.96 )][Co 3.8 Ge 10.2 O 30 F 2 ]

   https://doi.org/10.1039/D0CE01099E  

   Carone, Darren ; Usman, Mohammad ; Klepov, Vladislav V. ; Smith, Mark D. ; Kocevski, Vancho ; Besmann, Theodore M. ; zur Loye, Hans-Conrad ( December 2020 , CrystEngComm)

   null (Ed.)

   Single crystals of two new germanates, [(Rb 6 F)(Rb 4 F)][Ge 14 O 32 ] and [(Rb 6 F)(Rb 3.1 Co 0.9 F 0.96 )][Co 3.8 Ge 10.2 O 30 F 2 ], were synthesized via high temperature RbCl/RbF flux growth. Both compounds crystallize in the cubic space group F 4̄3 m and possess the germanium framework of the previously reported salt inclusion material (SIM), [(Cs 6 F)(Cs 3 AgF)][Ge 14 O 32 ], related to the Ge 7 O 16 zeolitic family. These materials demonstrate the ability to accommodate a variety of salt-inclusions, and exhibit chemical flexibility enabling modifications of the framework through incorporation of Co. Alteration of the salt-inclusion led to intrinsic luminescence of [(Rb 6 F)(Rb 4 F)][Ge 14 O 32 ] while modification of the framework resulted in an unanticipated Rb/Co salt/inclusion in [(Rb 6 F)(Rb 3.1 Co 0.9 F 0.96 )][Co 3.8 Ge 10.2 O 30 F 2 ]. Fluorescence measurements were performed on [(Rb 6 F)(Rb 4 F)][Ge 14 O 32 ]. First-principles calculations in the form of density functional theory (DFT) were performed for [(Rb 6 F)(Rb 3.1 Co 0.9 F 0.96 )][Co 3.8 Ge 10.2 O 30 F 2 ] to elucidate its electronic and magnetic properties, and stability at 0 K. 

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2. Germanate anomaly and its temperature dependence: An ultra-high field 17O NMR spectroscopic study of sodium germanate glasses

   https://doi.org/10.1016/j.nocx.2023.100175  

   Sen, Sabyasachi ; Stebbins, Jonathan F. ; Xu, Yijue ; Hung, Ivan ; Gan, Zhehong ( June 2023 , Journal of Non-Crystalline Solids: X)
3. Topological model of alkali germanate glasses and exploration of the germanate anomaly

   https://doi.org/10.1111/jace.17102  

   Welch, Rebecca S. ; Wilkinson, Collin J. ; Shih, Yueh‐Ting ; Bødker, Mikkel S. ; DeCeanne, Anthony V. ; Smedskjaer, Morten M. ; Huang, Liping ; Affatigato, Mario ; Feller, Steve A. ; Mauro, John C. ( April 2020 , Journal of the American Ceramic Society)

   Germanate glasses are of particular interest for their excellent optical properties as well as their abnormal structural changes that appear with the addition of modifiers, giving rise to the so‐calledgermanate anomaly. This anomaly refers to the nonmonotonic compositional scaling of properties exhibited by alkali germanate glasses and has been studied with various spectroscopy techniques. However, it has been difficult to understand its atomic scale origin, especially since the germanium nucleus is not easily observed by nuclear magnetic resonance. To gain insights into the mechanisms of the germanate anomaly, we have constructed a structural model using statistical mechanics and topological constraint theory to provide an accurate prediction of alkali germanate glass properties. The temperature onsets for the rigid bond constraints are deduced from in situ Brillouin light scattering, and the number of constraints is shown to be accurately calculable using statistical methods. The alkali germanate model accurately captures the effect of the germanate anomaly on glass transition temperature, liquid fragility, and Young's modulus. We also reveal that compositional variations in the glass transition temperature and Young's modulus are governed by the O–Ge–O angular constraints, whereas the variations in fragility are governed by the Ge–O radial constraints.

    

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4. Dynamic light scattering study of the non-exponential α-relaxation in sodium germanate glass melts

   https://doi.org/10.1016/j.jnoncrysol.2023.122819  

   Sidebottom, D.L. ( March 2024 , Journal of Non-Crystalline Solids)
5. Manganese-doped zinc germanate phosphors with vivid luminescent properties for anti-counterfeit applications

   https://doi.org/10.1016/j.optmat.2023.114036  

   Yang, Zishen ; Spencer, Levi D. ; Patocka, Delaney R. ; Putta, Anjaneyulu ; Schnetzer, Erin E. ; Kellar, Jon ; Jiang, Chaoyang ( August 2023 , Optical Materials)