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1. Synthesis and crystal structure of catena -poly[[tetra-μ-acetato-copper(II)]-μ-6-ethoxy- N ² , N ⁴ -bis[2-(pyridin-2-yl)ethyl]-1,3,5-triazine-2,4-diamine]

   https://doi.org/10.1107/S2056989021002164  

   Ayodele, Mayokun J.; Green, Travis C.; Warsapperuma, W. A.; Forbes, Malcolm D.; Ostrowski, Alexis D. (March 2021, Acta Crystallographica Section E Crystallographic Communications)

   null (Ed.)

   The title compound, [Cu 2 (C 19 H 23 N 7 O)(C 2 H 3 O 2 ) 4 ] n , was obtained via reaction of copper(II) acetate with the coordinating ligand, 6-ethoxy- N 2 , N 4 -bis[2-(pyridin-2-yl)ethyl]-1,3,5-triazine-2,4-diamine. The crystallized product adopts the monoclinic P 2 1 / c space group. The metal core exhibits a paddle-wheel structure typical for dicopper tetraacetate units, with triazine and pyridyl nitrogen atoms from different ligands coordinating to the two axial positions of the paddle wheel in an asymmetric manner. This forms a coordination polymer with the segments of the polymer created by the c -glide of the P 2 1 / c setting of the space group. The resulting chains running along the c -axis direction are held together by intramolecular N—H...O hydrogen bonding. These chains are further packed by dispersion forces, producing an extended three-dimensional structure. 

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2. Controlling thermoelectric transport via native defects in the diamond-like semiconductors Cu ₂ HgGeTe ₄ and Hg ₂ GeTe ₄

   https://doi.org/10.1039/D1TA07410E  

   Qu, Jiaxing; Porter, Claire E.; Gomes, Lídia C.; Adamczyk, Jesse M.; Toriyama, Michael Y.; Ortiz, Brenden R.; Toberer, Eric S.; Ertekin, Elif (November 2021, Journal of Materials Chemistry A)

   Diamond like semiconductors (DLS) have emerged as candidates for thermoelectric energy conversion. Towards understanding and optimizing performance, we present a comprehensive investigation of the electronic properties of two DLS phases, quaternary Cu 2 HgGeTe 4 and related ordered vacancy compound Hg 2 GeTe 4 , including thermodynamic stability, defect chemistry, and transport properties. To establish the thermodynamic link between the related but distinct phases, the stability region for both is visualized in chemical potential space. In spite of their similar structure and bonding, we show that the two materials exhibit reciprocal behaviors for dopability. Cu 2 HgGeTe 4 is degenerately p-type in all environments despite its wide stability region, due to the presence of low-energy acceptor defects V Cu and Cu Hg and is resistant to extrinsic n-type doping. Meanwhile Hg 2 GeTe 4 has a narrow stability region and intrinsic behavior due to the relatively high formation energy of native defects, but presents an opportunity for bi-polar doping. While these two compounds have similar structure, bonding, and chemical constituents, the reciprocal nature of their dopability emerges from significant differences in band edge positions. A Brouwer band diagram approach is utilized to visualize the role of native defects on carrier concentrations, dopability, and transport properties. This study elucidates the doping asymmetry between two solid-solution forming DLS phases Cu 2 HgGeTe 4 and Hg 2 GeTe 4 by revealing the defect chemistry of each compound, and suggests design strategies for defect engineering of DLS phases. 

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3. Methyl 2-hydroxy-4-iodobenzoate

   https://doi.org/10.1107/S2414314624003948  

   Kimble, Marten J; Myers, Shea D; Benedict, Jason B (May 2024, IUCrData)

   The structure of the title compound, C₈H₇IO₃, at 90 K has monoclinic (P2₁/c) symmetry. The extended structure is layered and displays intermolecular and intramolecular hydrogen bonding arising from the same OH group. 

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4. 1,1′-Methylenebis{4-[( E )-2-(pyridin-4-yl)ethenyl]pyridinium} dibromide dihydrate

   https://doi.org/10.1107/S2414314622005259  

   Neal, Henry C.; Nesterov, Volodymyr V.; Smucker, Bradley W. (May 2022, IUCrData)

   The chevron-shaped cations of the title hydrated salt, C 25 H 22 N 4 2+ ·2Br − ·2H 2 O, are arranged in back-to-back alternating directions to form a zigzag ribbon propagating along the [010] direction. Intermolecular interactions comprising these ribbons are π–π interactions between the pyridinium and adjacent pyridyl rings, as well as O—H...O hydrogen bonding between water molecules and two adjacent pyridyl N atoms. Half of the cation is generated by the mirror plane. The water O atoms, the central C atom and one Br atom are located on this mirror plane while the other Br atom is on a twofold screw axis. 

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5. Redetermination of poly[di-μ ₃ -iodido-[μ-1,2- trans -(pyridin-4-yl)ethene-κ ² N : N ′]dicopper(I)]

   https://doi.org/10.1107/S2414314619001226  

   Neal, Henry C.; Tamtam, Harsha; Smucker, Bradley W.; Nesterov, Volodymyr V. (January 2019, IUCrData)

   The re-investigated structure of the title compound, [Cu 2 I 2 (C 12 H 10 N 2 )] n , a two-dimensional coordination polymer crystallizing with monoclinic ( P 2 1 / n ) symmetry, is based on data collected at 100 K, while the previously reported structure was obtained with data collected at 203 K [Blake et al. (1999). Cryst. Eng. 2 , 181–195]. The refinement of the crystal structure is greatly improved; for example, the wR 2 residual converges to 0.047 for 1532 independent data, versus wR 2 = 0.179 for 992 independent data in the 1999 study. 

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