Lithium Binaphtholates: Chiral Chains and Clusters

Aspinall, Helen C.; Bickley, Jamie F.; Dwyer, Jennifer L. M.; Greeves, Nick; Steiner, Alexander

doi:10.1002/1521-3757(20000818)112:16<2980::aid-ange2980>3.0.co;2-i

Angewandte Chemie

2000

DOI: 10.1002/1521-3757(20000818)112:16<2980::aid-ange2980>3.0.co;2-i

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Lithium Binaphtholates: Chiral Chains and Clusters

Helen C. Aspinall¹,

Jamie F. Bickley²,

Jennifer L. M. Dwyer³

et al.

Abstract: Binaphthol (H 2 binol) is chiral by virtue of restricted rotation about the C À C bond linking the two naphthyl units, and the absolute configuration of (R)binaphthol (1) was first established unequivocally by X-ray diffraction in 1968. [1] The flexibility of the dihedral angle between the two naphthyl rings of this C 2symmetric molecule allows coordination to a wide range of metal centers (examples are known from 458 to 1108), and H 2 binol has been used as a chiral auxiliary in many metal-based enantiosele… Show more

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Cited by 4 publications

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Helical Superstructures of aC2-Symmetric Molecule Exhibiting Strong Second Harmonic Generation in the Solid-State

Gangopadhyay

Radhakrishnan

2001

Angew. Chem.

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The design of molecular materials for quadratic nonlinear optical (NLO) applications involves optimization of the structure at both the molecular and the materials level. [1] Molecular design aims at the maximization of the hyperpolarizability (b) as well as the incorporation of structural features that facilitate suitable assembly in the bulk phase. The latter features include hydrogen-bonding functionalities, [2] ionic groups, [3] optimally long alkyl chains, [4] and chirality. [5,6] Of these, only chirality ensures noncentrosymmetric organization, an essential prerequisite for the observation of quadratic NLO effects. However, even though the basic symmetry requirement is satisfied, efficient exploitation of the inherently strong molecular nonlinear response is rarely achieved at the bulk level. An exceptionally successful case is that of N-4-nitrophenyl-(S)-prolinol (NPP). [6] We previously investigated the strategic placement of stereogenic centers in push-pull quinonoid molecules to achieve enhanced second harmonic generation (SHG). [7] A logical extension of this study is that an axial chiral system having a strong b component coincident with the symmetry axis would be a promising candidate. We also envisaged that C 2 -symmetric molecules could potentially form helical assemblies, the chirality of which extends over the whole molecular superstructure. Recent studies have demonstrated enhanced NLO effects arising from supramolecular chirality in polymers, [8] mesoscopic systems, [9] and Langmuir ± Blodgett films.[10] Helical [12] For recent examples of supramolecular systems deposited on surfaces, see a) P. Laitenberger, C. G. 903 ± 913. The sol ± gel process is a synthetic technique for preparing oxide gels, glasses, and inorganic compounds at far lower temperatures than is possible by conventional synthesis. The approach is based on the hydrolysis and condensation of molecular precursors such as metal alkoxides. It has received considerable attention because it possesses a number of desirable characteristics in terms of producing materials of high purity and excellent homegeneity. Moreover, since the sol ± gel approach is a solution-based method, it is readily adaptable to producing thin films and fibres as well as bulk materials. The flexible solution chemistry associated with the synthesis of sol ± gels makes it possible to incorporate a large variety of organic molecules in the inorganic oxide matrix. The optical properties of the molecular dopants are then imparted upon the solid derived from the sol ± gel. Hence this process gives rise to a large number of materials with interesting and unique properties. The interconnected nanopores in sol ± gels are filled with liquid which can provide supramolecular machines with a local solution environment in which large molecular movements (co-conformational changes) can be performed, with the silicate framework providing the macroscopic support. The silicate matrix is also transparent to visible light and this transparency makes it possible to study a phot...

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Helical Superstructures of aC2-Symmetric Molecule Exhibiting Strong Second Harmonic Generation in the Solid-State

Gangopadhyay

Radhakrishnan

2001

Angew. Chem.

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show abstract

Helical Superstructures of aC2-Symmetric Molecule Exhibiting Strong Second Harmonic Generation in the Solid-State

Gangopadhyay

Radhakrishnan

2001

Angew. Chem. Int. Ed.

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The crystallization solvent exerts a critical control of the nonlinear optical properties of helical superstructures in molecular crystals based on N,N′‐bis(4‐nitrophenyl)‐(1R,2R)‐diaminocyclohexane. While crystallization from ethyl acetate resulted in mutually orthogonal helices with different handedness, crystallization from ethyl acetate/hexane or acetyl acetone/hexane resulted in the formation of helical motifs (see picture) of a single‐handedness oriented in one direction. The latter showed a strong solid‐state second harmonic generation capability.

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Synthesis and Characterization of New Biphenolate and Binaphtholate Rare‐Earth‐Metal Amido Complexes: Catalysts for Asymmetric Olefin Hydroamination/Cyclization

Gribkov

Hultzsch

Hampel

2003

Chemistry A European J

205

109

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Monomeric diolate amido yttrium complexes [Y[diolate][N(SiHMe(2))(2)](thf)(2)] can be prepared in good yield by treating [Y[N(SiHMe(2))(2)](3)(thf)(2)] with either 3,3'-di-tert-butyl-5,5',6,6'-tetramethyl-1,1'-biphenyl-2,2'-diol (H(2)(Biphen)), 3,3'-bis(2,4,6-triisopropylphenyl)-2,2'-dihydroxy-1,1'-dinaphthyl (H(2)(Trip(2)BINO)) or 3,3'-bis(2,6-diisopropylphenyl)-2,2'-dihydroxy-1,1'-dinaphthyl (H(2)(Dip(2)BINO)) in racemic and enantiopure form. The racemic complex [Y(biphen)[N(SiHMe(2))(2)](thf)(2)] dimerizes upon heating to give the heterochiral complex (R,S)-[Y(biphen)[N(SiHMe(2))(2)](thf)](2). The corresponding dimeric heterochiral lanthanum complex was the sole product in the reaction of H(2)(Biphen) with [La[N(SiHMe(2))(2)](3)(thf)(2)]. Single-crystal X-ray diffraction of both dimeric complexes revealed that the two Ln(biphen)[N(SiHMe(2))(2)](thf) fragments are connected through bridging phenolate groups of the biphenolate ligands. The two different phenolate groups undergo an intramolecular exchange process in solution leading to their equivalence on the NMR timescale. All complexes were active catalysts for the hydroamination/cyclization of aminoalkynes and aminoalkenes at elevated temperature, with [Y((R)-dip(2)bino)[N(SiHMe(2))(2)](thf)(2)] being the most active one giving enantioselectivities of up to 57 % ee. Kinetic resolution of 2-aminohex-5-ene proceeded with this catalyst with 6.4:1 trans selectivity to give 2,5-dimethylpyrrolidine with a k(rel) of 2.6.

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Lithium Binaphtholates: Chiral Chains and Clusters

Cited by 4 publications

References 16 publications

Helical Superstructures of aC2-Symmetric Molecule Exhibiting Strong Second Harmonic Generation in the Solid-State

Helical Superstructures of aC2-Symmetric Molecule Exhibiting Strong Second Harmonic Generation in the Solid-State

Helical Superstructures of aC2-Symmetric Molecule Exhibiting Strong Second Harmonic Generation in the Solid-State

Synthesis and Characterization of New Biphenolate and Binaphtholate Rare‐Earth‐Metal Amido Complexes: Catalysts for Asymmetric Olefin Hydroamination/Cyclization

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