Mixed-Valence Tetranuclear Manganese Single-Molecule Magnets was written by Yoo, Jae;Yamaguchi, Akira;Nakano, Motohiro;Krzystek, J.;Streib, William E.;Brunel, Louis-Claude;Ishimoto, Hidehiko;Christou, George;Hendrickson, David N.. And the article was included in Inorganic Chemistry in 2001.Safety of 6-Methyl-2-pyridinemethanol This article mentions the following:
The preparations, x-ray structures, and detailed phys. characterizations are presented for two new mixed-valence tetranuclear Mn complexes that function as single-mol. magnets (SMM’s): [Mn4(hmp)6Br2(H2O)2]Br2·4H2O (2) and [Mn4(6-mehmp)6Cl4]·4H2O (3), where hmp– is the anion of 2-hydroxymethylpyridine and 6-mehmp– is the anion of 6-methyl-2-hydroxymethylpyridine. Complex 2·4H2O crystallizes in the space group P21/c, with at -160° of a 10.907(0), b 15.788(0), c 13.941(0) Å, β 101.21(0)°, and Z = 2. The cation lies on an inversion center and consists of a planar Mn4 rhombus that is mixed-valence, MnIII2MnII2. The hmp– ligands function as bidentate ligands and as the only bridging ligands in 2·4H2O. Complex 3·4H2O crystallizes in the monoclinic space group C2/c, with at -160° of a 17.0852(4), b 20.8781(5), c 14.835(3) Å, β 90.5485(8)°, and Z = 4. This neutral complex also has a mixed-valence MnIII2MnII2 composition and is best described as having four Mn ions arranged in a bent chain. An μ2-O atom of the 6-mehmp– anion bridges between the Mn ions; the Cl– ligands are terminal. Variable-field magnetization and high-frequency and -field EPR (HFEPR) data indicate that complex 2·4H2O has a S = 9 ground state whereas complex 3·4H2O has S = 0 ground state. Fine structure patterns are seen in the HFEPR spectra, and in the case of 2·4H2O it was possible to simulate the fine structure assuming S = 9 with the parameters g = 1.999, axial zero-field splitting of D/kB = -0.498 K, quartic longitudinal zero-field splitting of B4ο/kB = 1.72 × 10-5 K, and rhombic zero-field splitting of E/kB = 0.124 K. Complex 2·4H2O exhibits a frequency-dependent out-of-phase a.c. magnetic susceptibility signal, clearly indicating that this complex functions as a SMM. The a.c. susceptibility data for complex 2·4H2O were measured in the 0.05-4.0 K range and when fit to the Arrhenius law, gave an activation energy of ΔE = 15.8 K for the reversal of magnetization. This ΔE value is to be compared to the potential-energy barrier height of U/kB = |DŜZ2| = 40.3 K calculated for 2·4H2O. In the experiment, the researchers used many compounds, for example, 6-Methyl-2-pyridinemethanol (cas: 1122-71-0Safety of 6-Methyl-2-pyridinemethanol).
6-Methyl-2-pyridinemethanol (cas: 1122-71-0) belongs to alcohols. Alcohols are weak acids. The most acidic simple alcohols (methanol and ethanol) are about as acidic as water, and most other alcohols are somewhat less acidic. Alcohols may be oxidized to give ketones, aldehydes, and carboxylic acids. These functional groups are useful for further reactions. Oxidation of organic compounds generally increases the number of bonds from carbon to oxygen (or another electronegative element, such as a halogen), and it may decrease the number of bonds to hydrogen.Safety of 6-Methyl-2-pyridinemethanol
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