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• W4237319654 abstract "Variable temperature 1H NMR over the range from 165.9 to 19.9 °C in d6-dimethyl sulfoxide and 22.1 to −95.4 °C in d2-methylene chloride is employed to investigate the molecular motions in the eight-coordinate zirconium complexes bis(N,N′-disalicylidene-cis-1,2-diaminocyclohexanato)zirconium(IV), Zr(cis-dsd)2; bis(N,N′-disalicylidene-trans-1,2-diaminocyclohexanato)zirconium(IV), Zr(trans-dsd)2; and bis(N,N′-disalicylidene-1,2-phenylenedi-aminato)zirconium(IV), Zr(dsp)2. For Zr(cis-dsd)2, the resolution of one methine signal into separate axial (upfield) and equatorial (downfield) signals at low temperature is consistent with the chair-to-chair interconversion of the fused cyclohexane ring becoming slow on the NMR time scale. A coalescence temperature of c. −47 °C and a thermodynamic barrier of ΔG≠ (298)=46.5± 0.9 kJ mol−1, ΔH≠=27±3 kJ mol−1 and ΔS≠=−66±13 J mol−1 K−1 are obtained for this process. The resolution of six imine signals at −95.4 °C from two ambient temperature imine signals is attributed to slow interconversion of isomers which arise from different ligand wrapping geometries, cyclohexane ring conformations, and/or polytopal coordination geometries. For Zr(trans-dsd)2, the resolution of a second set of salicylidene NMR signals as the temperature is decreased is likewise attributed to the slow interconversion of isomers. However, since only one set of averaged signals is observed at high temperature, these isomers must possess symmetrical salicylidene moieties. For Zr(dsp)2, comparable changes were not observed over the temperature range studied, despite the fact that both dsp(2−) and dsd(2−) ligands are capable of considerable non-planarity. The two new zirconium complexes, Zr(cis-dsd)2 and Zr(trans-dsd)2, are synthesized from Zr(O-n-C4H9)4 butanol solvate and Schiff bases made from cis- and trans-diaminocyclohexane (DACH), and characterized by elemental analysis, IR, UV-Vis, 1H and 13C NMR (the latter able to distinguish Zr(R,R-trans-dsd)(S,S-trans-dsd) from other Zr(trans-dsd)2 isomers), thermogravimetric analysis, optical rotation for the separate enantiomers Zr(R,R-trans-dsd)2 and Zr(S,S-trans-dsd)2, and single crystal X-ray diffraction analysis for Zr(trans-dsd)2. Hitherto unpublished 13C NMR results for Zr(dsp)2 are included in order to facilitate making assignments. Details of the crystallography include: formula C40H40N4O4Zr, space group Fddd with a=15.232(3), b=16.994(4), c=26.711(5) Å, V=6914(2) Å3, Z=8, and Dcalc=1.406 g cm−3; refinement of 152 variables using 2283 reflections collected (1820 independent and_observed) converge at R=3.84%. Details of the crystallography for the Zr(S,S-trans-dsd)2 isomer, space group P1, can be obtained. Testing of the new complexes for anticancer activity was performed by Bristol-Myers and was negative." @default.
• W4237319654 created "2022-05-12" @default.
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• W4237319654 date "1993-05-01" @default.
• W4237319654 modified "2023-10-18" @default.
• W4237319654 title "Synthesis, characterization and investigation of molecular motion by variable temperature 1H NMR of the bis(quadridentate)zirconium(IV) complexes bis(N,N′-disalicylidene-cis-1,2-diaminocyclohexanato)zirconium(IV) and bis(N,N′-disalicylidene-trans-1,2-diaminocyclohexanato)zirconium(IV), and comparisons with bis(N,N′-disalicylidene-1,2-phenylenediaminato)zirconium(IV). Crystal and molecular structure of the racemic Zr(trans-dsd)2 and Zr(S,S-trans-dsd)2 complexes" @default.
• W4237319654 cites W1483825465 @default.
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• W4237319654 cites W1970214950 @default.
• W4237319654 cites W1975864520 @default.
• W4237319654 cites W1977686071 @default.
• W4237319654 cites W1978350853 @default.
• W4237319654 cites W1983340338 @default.
• W4237319654 cites W1985493553 @default.
• W4237319654 cites W1989013134 @default.
• W4237319654 cites W1989061939 @default.
• W4237319654 cites W1989885406 @default.
• W4237319654 cites W1993591592 @default.
• W4237319654 cites W2001511578 @default.
• W4237319654 cites W2002397741 @default.
• W4237319654 cites W2003589098 @default.
• W4237319654 cites W2004731377 @default.
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• W4237319654 cites W2010050629 @default.
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• W4237319654 cites W2013472942 @default.
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• W4237319654 cites W2021285236 @default.
• W4237319654 cites W2022879459 @default.
• W4237319654 cites W2025872432 @default.
• W4237319654 cites W2032422460 @default.
• W4237319654 cites W2036517272 @default.
• W4237319654 cites W2036599330 @default.
• W4237319654 cites W2039726032 @default.
• W4237319654 cites W2040094372 @default.
• W4237319654 cites W2040192149 @default.
• W4237319654 cites W2042386173 @default.
• W4237319654 cites W2042795561 @default.
• W4237319654 cites W2044125973 @default.
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• W4237319654 cites W2067867878 @default.
• W4237319654 cites W2078869607 @default.
• W4237319654 cites W2080214186 @default.
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• W4237319654 doi "https://doi.org/10.1016/s0020-1693(00)90705-9" @default.
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