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1. Dative Epitaxy of Commensurate Monocrystalline Covalent van der Waals Moiré Supercrystal

   https://doi.org/10.1002/adma.202200117  

   Bian, Mengying ; Zhu, Liang ; Wang, Xiao ; Choi, Junho ; Chopdekar, Rajesh V. ; Wei, Sichen ; Wu, Lishu ; Huai, Chang ; Marga, Austin ; Yang, Qishuo ; et al ( March 2022 , Advanced Materials)

   Realizing van der Waals (vdW) epitaxy in the 1980s represents a breakthrough that circumvents the stringent lattice matching and processing compatibility requirements in conventional covalent heteroepitaxy. However, due to the weak vdW interactions, there is little control over film qualities by the substrate. Typically, discrete domains with a spread of misorientation angles are formed, limiting the applicability of vdW epitaxy. Here, the epitaxial growth of monocrystalline, covalent Cr₅Te₈2D crystals on monolayer vdW WSe₂by chemical vapor deposition is reported, driven by interfacial dative bond formation. The lattice of Cr₅Te₈, with a lateral dimension of a few tens of micrometers, is fully commensurate with that of WSe₂via 3 × 3 (Cr₅Te₈)/7 × 7 (WSe₂) supercell matching, forming a single‐crystalline moiré superlattice. This work establishes a conceptually distinct paradigm of thin‐film epitaxy, termed “dative epitaxy”, which takes full advantage of covalent epitaxy with chemical bonding for fixing the atomic registry and crystal orientation, while circumventing its stringent lattice matching and processing compatibility requirements; conversely, it ensures the full flexibility of vdW epitaxy, while avoiding its poor orientation control. Cr₅Te₈2D crystals grown by dative epitaxy exhibit square magnetic hysteresis, suggesting minimized interfacial defects that can serve as pinning sites.

    

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2. Crystal growth and phase formation of high‐entropy rare‐earth monoclinic aluminates

   https://doi.org/10.1111/jace.19320  

   Pianassola, Matheus ; Loveday, Madeline ; Lalk, Rebecca ; Pestovich, Kimberly ; Melcher, Charles L. ; Zhuravleva, Mariya ( July 2023 , Journal of the American Ceramic Society)

   For the first time, high‐entropy rare‐earth monoclinic aluminate crystals were grown via directional solidification using the micro‐pulling‐down method. Five high‐entropy compositions were formulated with a general formula RE₄Al₂O₉, where RE is an equiatomic mixture of five rare‐earth elements. The rare‐earth elements included were Lu, Yb, Er, Y, Ho, Dy, Tb, Gd, Eu, Sm, Nd, and La. High‐temperature powder X‐ray diffraction and Rietveld structure refinement indicated that all crystals were a single monoclinic phase and that rare‐earth average ionic radius did not affect phase purity. At room temperature, the refined lattice parameters increased consistently with increasing average ionic radii of the five compositions. One of the crystals had a typical high‐temperature phase transition of single‐RE RE₄Al₂O₉in the range of 1100–1150°C, which consisted of a lattice contraction upon heating. Differential scanning calorimetry indicated a thermal event corresponding to that phase transition. Electron probe microanalysis revealed Al‐rich inclusions on the surface of the crystals. Crystals containing Tb had dark surface features that became lighter after annealing in a reducing atmosphere, which indicated that Tb⁴⁺may be responsible for the dark features.

    

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3. Towards understanding the magnetic properties of the breathing pyrochlore compound Ba3Yb2Zn5O11through single-crystal studies

   https://doi.org/10.1038/s41535-022-00488-w  

   Dissanayake, Sachith ; Shi, Zhenzhong ; Rau, Jeffrey G. ; Bag, Rabindranath ; Steinhardt, William ; Butch, Nicholas P. ; Frontzek, Matthias ; Podlesnyak, Andrey ; Graf, David ; Marjerrison, Casey ; et al ( August 2022 , npj Quantum Materials)

   Ba₃Yb₂Zn₅O₁₁is exceptional among breathing pyrochlore compounds for being in the nearly-decoupled limit where inter-tetrahedron interactions are weak, hosting isolated clusters or molecular magnet-like tetrahedra of magnetic ytterbium (Yb³⁺) ions. In this work, we present the study carried out on single-crystal samples of the breathing pyrochlore Ba₃Yb₂Zn₅O₁₁, using a variety of magnetometry and neutron scattering techniques along with theoretical modeling. We employ inelastic neutron scattering to investigate the magnetic dynamics as a function of applied field (with respect to both magnitude and direction) down to a temperature of 70 mK, where inelastic scattering reveals dispersionless bands of excitations as found in earlier powder sample studies, in good agreement with a single-tetrahedron model. However, diffuse neutron scattering at zero field and dc-susceptibility at finite field exhibit features suggesting the presence of excitations at low-energy that are not captured by the single tetrahedron model. Analysis of the local structure down to 2 K via pair distribution function analysis finds no evidence of structural disorder. We conclude that effects beyond the single tetrahedron model are important in describing the low-energy, low-temperature physics of Ba₃Yb₂Zn₅O₁₁, but their nature remains undetermined.

    

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4. Growth and phase transition of Sr3Zr2O7 single crystals

   https://doi.org/10.1016/j.jcrysgro.2023.127241  

   Fukasawa, Ikuya ; Maruyama, Yuki ; Yoshida, Suguru ; Fujita, Koji ; Takahashi, Hidehiro ; Ohgaki, Masataka ; Nagao, Masanori ; Watauchi, Satoshi ; Gopalan, Venkatraman ; Tanaka, Katsuhisa ; et al ( August 2023 , Journal of Crystal Growth)

   The melting behavior of Ruddlesden-Popper type hybrid improper ferroelectric Sr3Zr2O7 phase in the ZrO2–SrO pseudo-binary system was investigated, and its single crystals were successfully grown. A series of the slowcooling floating zone experiments revealed that Sr3Zr2O7 melts incongruently into SrZrO3 phase and a liquid and that the compositional range where Sr3Zr2O7 and a liquid coexist is located around 70 mol% SrO composition. Based on the results, we attempted to grow Sr3Zr2O7 single crystals by the traveling solvent floating zone method using SrO-excess solvent and feed. Consequently, many small single crystals of Sr3Zr2O7 phase with several millimeters in size were discovered in the as-grown boules covered with SrO phase. The phase transition behavior of the grown crystals was investigated by differential thermal analysis with polarizing optical microscopy as well as by optical second harmonic generation measurements. We directly observed a reconstruction of orthorhombic twin domains in Sr3Zr2O7 single crystals accompanied by the first-order ferroelectric transition at about 410 ◦C. 

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5. Tuning the magnetic ground state of Ce1-xYbxRhIn5 by Yb valence fluctuations

   https://doi.org/DOI:10.1103/PhysRevB.98.195118  

   Jang, S. ; Pouse, N. ; Keiber, T. ; White, B. D. ; Disseler, S. M. ; Lynn, J. W. ; J. C. Collini, J. C. ; Janoschek, M. ; Bridges, F. ; Maple, M. B. ( November 2018 , Physical review. B, Condensed matter)

   We characterize the properties of Ce1−xYbxRhIn5 single crystals with 0  x  1 using measurements of powder x-ray diffraction, energy dispersive x-ray spectroscopy, electrical resistivity, magnetic susceptibility, specific heat, x-ray absorption near edge structure (XANES), and neutron diffraction. The Yb valence vYb, calculated from the magnetic susceptibility and measured using XANES, decreases from 3+ at x = 0 to ∼2.1+ at xact = 0.2, where xact is the measured Yb concentration. A transition from incommensurate to commensurate antiferromagnetism is observed in neutron diffraction measurements along Q = (0.5, 0.5, l) between 0.2  xact  0.27; this narrative is supported by specific-heat measurements in which a second robust feature appears at a temperature TI (TI < TN) for the same concentration range. Magnetic susceptibility measurements also reveal features which provide additional evidence of magnetic ordering. The results of this study suggest that the evolution of the Yb valence plays a critical role in tuning the magnetic ground state of Ce1−xYbxRhIn5. 

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