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For ferroelectric MOFs, see: a
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For ferroelectric MOFs, see: (a) Qu, Z.-R.; Zhao, H.; Wang, Y.-P.; Wang, X.-S.; Ye, Q.; Li, Y.-H.; Xiong, R.-G.; Abrahams, B. F.; Liu, Z.-G.; Xue, Z.; You, X.-Z. Chem. - Eur. J. 2004, 10, 53.
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11
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33646735180
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(d) Ye, Q.; Song, Y.-M.; Wang, G.-X.; Chen, K.; Fu, D.-W.; Chan, P. W. H.; Zhu, J.-S.; Huang, S. D.; Xiong, R.-G. J. Am. Chem. Soc. 2006, 128, 6554.
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14
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39749095888
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Synthesis of 1: The hydrothermal reaction of (L)-ethyl lactate (1.0 mL) in the presence of Tb(ClO4)3· 6H2O (1 mmol) with 1.5 mL of water in a sealed Pyrex tube at 110°C for 2-4 days gave colorless block compound 1 in 50% yield based on Tb(ClO4)3·6H2O after cooling down. IR (cm-1, 3480 (s, br, 2980 (vw, 2937 (vw, 1603 (vs, 1470 (m, 1434 (m, 1359 (m, 1315 (w, 1241 (w, 1105 (vs, 933 (w, 870 (w, 781 (w, 628 (w, 570 (w, 452 (w, Anal. Calcd for C6H14ClO 12Tb: C, 15.24; H, 2.96. Found: C, 15.30; H, 3.01. TGA suggests that MOF 1 can be stable before ca. 200°C (see the Supporting Information, Synthesis of 2: The hydrothermal reaction of (L)-ethyl lactate (1.0 mL) in the presence of Tb(ClO4) 3·6H2O (1 mmol) with 1.5 mL of deuterated oxide (D2O) in a sea
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12-Tb: C, 15.11; H, 2.10. Found: C, 15.18; H, 2.07.
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15
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39749151606
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Crystal data of 1: C6H14ClO12Tb, M, 472.54, monoclinic, C2, a, 8.635(2) Å, b, 8.3357(19) Å, c, 10.187(2) Å, β, 92.002(4)°, V, 732.8(3) Å3, Z, 2, Dc, 2.142 Mg·m-3, R1, 0.0473, wR2, 0.1341, μ, 5.062 mm -1, S, 1.092; Flack parameter, 0.08(4, Crystal data of 2: C6H10D4ClO12Tb, M, 476.57, monoclinic, C2, a, 8.6580(15) Å, b, 8.3628(18) Å, c, 10.2187(18) Å, β, 91.933-(2)°, V, 739.5(2) Å3, Z, 2, Dc, 2.140 Mg·m-3, R1, 0.0460, wR2, 0.1009, μ, 5.016 mm -1, S, 1.055; Flack parameter, 0.01-4
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-1, S = 1.055; Flack parameter = 0.01-(4).
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