Megumi Akagi scite author profile

To compare the crystalline-state conformations of MαNP acid esters with those existing in the solution state, X-ray crystallographic analyses of 22 MαNP esters and two MαNP acids were carried out. It was found that all 27 conformers observed in the solid state have structures in which the 2-CH 3 group and the 2Ј-H of the naphthyl group are synperiplanar and are almost always located in the same plane. In addition, the CH 3 -O7-C2-C1 moiety in all cases has an antiperiplanar structure within the MαNP plane. From further analyses, 22 conformers adopt the so-called syn structure, in which the O7-C2-C1-O6 moiety is synperiplanar. On the other hand, the remaining five conformers have the so-called anti structure. With regard to the rotational conformation around C1ЈЈ-O5, all conformers have structures similar to the synperiplanar conformation. In the so-called syn conformers, the interatomic distance d(H8Ј-O6) is distributed between 2.48 Å and 2.96 Å, while the distance d(H8Ј-O7) varies between 2.26 Å and 2.56 Å, indicating the weak bifurcated hydrogen

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Synthesis of Enantiopure Aliphatic Acetylene Alcohols and Determination of Their Absolute Configurations by ¹H NMR Anisotropy and/or X‐ray Crystallography

Sekiguchi

Akagi

Naito

et al. 2008

Eur J Org Chem

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The MαNP acid method has been applied to racemic aliphatic acetylene alcohols in order to simultaneously prepare enantiopure alcohols and to determine their absolute configurations by 1 H NMR anisotropy. Racemic acetylene alcohols 6-8, 11, and 20 were esterified with MαNP acid (S)-(+)-1 to yield diastereomeric MαNP esters which were efficiently separated by HPLC on silica gel with separation factors α in the range 1.60-1.93. The 1 H NMR anisotropy factors ∆δ [= δ(2nd fr.) -δ(1st fr.)] were calculated from the data of the first-(22a-

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MαNP acid, a powerful chiral molecular tool for preparation of enantiopure alcohols by resolution and determination of their absolute configurations by the ¹H NMR anisotropy method

et al. 2004

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A novel methodology using a chiral molecular tool of MalphaNP acid (1), 2-methoxy-2-(1-naphthyl)propionic acid, useful for preparation of enantiopure secondary alcohols and determination of their absolute configurations by the (1)H NMR anisotropy method was developed; racemic MalphaNP acid (1) was enantioresolved with (-)-menthol, and the enantiopure MalphaNP acid (S)-(+)-(1) obtained was allowed to react with racemic alcohol, yielding a mixture of diastereomeric esters, which was clearly separated by HPLC on silica gel. By applying the sector rule of (1)H NMR anisotropy effect, the absolute configuration of the first-eluted MalphaNP ester was unambiguously determined. Solvolysis or reduction of the first-eluted MalphaNP esters yielded enantiopure alcohols.

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A general method for the synthesis of enantiopure aliphatic chain alcohols with established absolute configurations. Part 2, via catalytic reduction of acetylene alcohol MαNP esters

Akagi

Sekiguchi

Taji

et al. 2014

Tetrahedron: Asymmetry

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A general method for the synthesis of enantiopure aliphatic chain alcohols with established absolute configurations. Part 1. Application of the MαNP acid method to acetylene alcohols

Yamamoto¹,

Akagi²,

Shimanuki³

et al. 2014

Tetrahedron: Asymmetry

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Megumi Akagi

Crystalline‐State Conformational Analysis of MαNP Esters, Powerful Resolution and Chiral ¹H NMR Anisotropy Tools

Synthesis of Enantiopure Aliphatic Acetylene Alcohols and Determination of Their Absolute Configurations by ¹H NMR Anisotropy and/or X‐ray Crystallography

MαNP acid, a powerful chiral molecular tool for preparation of enantiopure alcohols by resolution and determination of their absolute configurations by the ¹H NMR anisotropy method

A general method for the synthesis of enantiopure aliphatic chain alcohols with established absolute configurations. Part 2, via catalytic reduction of acetylene alcohol MαNP esters

A general method for the synthesis of enantiopure aliphatic chain alcohols with established absolute configurations. Part 1. Application of the MαNP acid method to acetylene alcohols

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Megumi Akagi

Crystalline‐State Conformational Analysis of MαNP Esters, Powerful Resolution and Chiral 1H NMR Anisotropy Tools

Synthesis of Enantiopure Aliphatic Acetylene Alcohols and Determination of Their Absolute Configurations by 1H NMR Anisotropy and/or X‐ray Crystallography

MαNP acid, a powerful chiral molecular tool for preparation of enantiopure alcohols by resolution and determination of their absolute configurations by the 1H NMR anisotropy method

A general method for the synthesis of enantiopure aliphatic chain alcohols with established absolute configurations. Part 2, via catalytic reduction of acetylene alcohol MαNP esters

A general method for the synthesis of enantiopure aliphatic chain alcohols with established absolute configurations. Part 1. Application of the MαNP acid method to acetylene alcohols

Contact Info

Product

Resources

About

Crystalline‐State Conformational Analysis of MαNP Esters, Powerful Resolution and Chiral ¹H NMR Anisotropy Tools

Synthesis of Enantiopure Aliphatic Acetylene Alcohols and Determination of Their Absolute Configurations by ¹H NMR Anisotropy and/or X‐ray Crystallography

MαNP acid, a powerful chiral molecular tool for preparation of enantiopure alcohols by resolution and determination of their absolute configurations by the ¹H NMR anisotropy method