Burkhard Miehlich scite author profile

During the past 10 years iron-catalyzed reactions have become established in the field of organic synthesis. For example, the complex anion [Fe(CO)3 (NO)](-) , which was originally described by Hogsed and Hieber, shows catalytic activity in various organic reactions. This anion is commonly regarded as being isoelectronic with [Fe(CO)4 ](2-) , which, however, shows poor catalytic activity. The spectroscopic and quantum chemical investigations presented herein reveal that the complex ferrate [Fe(CO)3 (NO)](-) cannot be regarded as a Fe(-II) species, but rather is predominantly a Fe(0) species, in which the metal is covalently bonded to NO(-) by two π-bonds. A metal-N σ-bond is not observed.

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A correlation-energy density functional for multideterminantal wavefunctions

Miehlich¹,

Stoll²,

Savin³

1997

Molecular Physics

152

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A density functional for dynamical correlation, to be used in connection with wavefunctions of the complete-active-space self-consistent ® eld type, is described, and ® rst applications to the series of two-and four-electron atomic ions as well as to the H2 potential curve are given. IntroductionDensity functional theory (DFT) has been very successful for both an economic and an accurate description of electronic structure in atomic, molecular and solid-state physics (for example [1]); electron correlation e ects are implicitly included while formally retaining an independent-particle Hartree± Fock (HF)-like picture. The HF picture, on the other hand, is just the starting point for an explicit electron correlation treatment with the wavefunction-based quantum-chemical ab initio methods (for example [2]); in contrast with DFT, a systematic improvement towards the exact results is possible, but at the expense of a heavy computational burden caused by long con® guration interaction (CI) expansions. However, long CI expansions are usually related to dynamical correlation e ects which have to do with the short-range description of the electron correlation hole (electron± electron cusp), while static (longrange) correlation e ects caused by near-degeneracies of ground and low-lying excited states of the same symmetry very often can e ciently be covered by quite short optimized expansions (of the multicon® guration self-consistent ® eld (MCSCF) or complete-active-space self-consistent ® eld (CASSCF) type). Since de® ciencies of DFT, if any, are likely to occur just with the description of near-degeneracies which are special to individual molecules and not easily covered by a universal functional, the idea of a CI± DFT coupling combining the advantages of the two approaches seems to be rewarding.

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Structure of hydroxynitrile lyase fromManihot esculentain complex with substrates acetone and chloroacetone: implications for the mechanism of cyanogenesis

Lauble¹,

Förster²,

Miehlich³

et al. 2001

Acta Crystallogr D Biol Cryst

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The crystal structures of hydroxynitrile lyase from Manihot esculenta (MeHNL) complexed with the native substrate acetone and substrate analogue chloroacetone have been determined and re®ned at 2.2 A Ê resolution. The substrates are positioned in the active site by hydrogen-bond interactions of the carbonyl O atom with Thr11 OG, Ser80 OG and, to a lesser extent, Cys81 SG. These studies support a mechanism for cyanogenesis as well as for the stereospeci®c MeHNLcatalyzed formation of (S)-cyanohydrins, which closely resembles the base-catalyzed chemical reaction of HCN with carbonyl compounds.

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Columnar Liquid Crystals with a Central Crown Ether Unit

Schultz

Laschat²,

Saipa

et al. 2004

Adv Funct Materials

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Novel columnar liquid crystals 5a–f bearing a dibenzo[18]crown[6] central unit have been prepared from bromodialkyloxybenzenes 1 and tetrabromodibenzo[18]crown[6] 2 via Suzuki coupling reactions. Differential scanning calorimetry (DSC) revealed that the length of the alkyl chains in the liquid‐crystalline compounds 5 influenced their mesomorphic properties. Whereas 5a–d gave fan‐shaped textures only upon rapid cooling, 5e and 5f with C9 and C10 side chains formed stable columnar textures upon slow cooling. A hexagonal columnar mesophase of 5a is apparent from X‐ray diffraction studies. Complexation of 5 with potassium significantly shifted the clearing points to higher temperatures and also increased the mesophase stability in the cooling cycle.

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