Heesub Kim scite author profile

The synthesis and characterization of the rod-coil molecules of ethyl 4-[4-[oxypoly(propyleneoxy)-propyloxy]-4′-biphenylcarboxyloxy]-4′-biphenylcarboxylate with poly(propylene oxide) coil of 7 (7-P-4), 8 (8-P-4), 10 (10-P-4), 12 (12-P-4), 15 (15-P-4), 17 (17-P-4), and 20 (20-P-4) propylene oxide units are described. The introduction of poly(propylene oxide) (PPO) coils with different lengths into the rodlike mesogen gives rise to a rich self-assembled microstructures. In the crystalline state, the rod-coil molecules with 7-12 repeating units of PPO organize into a microphase-separated monolayer lamellar structure in which rods are fully interdigitated. In contrast, the rod-coil molecules with 15-17 repeating units of PPO exhibit a lamellar structure with rod tilt relative to the layer normal. A dramatic mesophase change is observed with the variation of the coil length. The rod-coil molecules 7-P-4 and 8-P-4 with short PPO coils display layered smectic C and smectic A mesophases, while the rod-coil molecules 10-P-4, 12-P-4, and 15-P-4 with medium-length coils exhibit a biconticuous cubic mesophase with Ia3d symmetry. Further increasing the length of coils as in the cases of 15-P-4, 17-P-4, and 20-P-4 induces a hexagonal columnar mesophase. Estimations based on the lattice parameters and densities have shown that the organization of the rod-coil molecules into a cross sectional slice of a cylinder for the cubic and columnar phases can give rise to an aromatic core with a square cross section. This unique behavior in the rod-coil molecules is believed to originate from the anisotropic aggregation of rod segments and consequent entropic penalties associated with coil stretching.

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Cubic and Columnar Supramolecular Architectures of Rod–Coil Molecules in the Melt State

Lee¹,

Cho²,

Kim³

et al. 1998

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Synthesis and properties of polyazomethines having flexible (n-alkyloxy)methyl side chains

Park¹,

Kim²,

Zin³

et al. 1993

Macromolecules

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Trinuclear Gold(I) Pyrazolate Complexes Exhibiting Hexagonal Columnar Mesophases with Only Three Side Chains¹

et al. 1998

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Reaction of long-chain alkyl-substituted pyrazoles with AuCl(SMe 2 ) yields trinuclear gold-(I) pyrazolate complexes, two of which exhibit monotropic mesophases. Optical microscopy and/or X-ray diffraction studies show that these compounds form hexagonal columnar mesophases. They are only the third examples of discotic mesogens possessing only three aliphatic side chains. The X-ray crystal structure of one compound reveals that two molecules form a "dimer" mainly through intermolecular Au-Au interactions. The "dimers" are stacked in a tilted fashion to form columns along the b axis in the crystal phase, which are presumably rearranged to the hexagonal columnar structure in the mesophase.

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Heesub Kim

Self-Organization of Rod−Coil Molecules with Layered Crystalline States into Thermotropic Liquid Crystalline Assemblies

Cubic and Columnar Supramolecular Architectures of Rod–Coil Molecules in the Melt State

Synthesis and properties of polyazomethines having flexible (n-alkyloxy)methyl side chains

Trinuclear Gold(I) Pyrazolate Complexes Exhibiting Hexagonal Columnar Mesophases with Only Three Side Chains¹

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Heesub Kim

Self-Organization of Rod−Coil Molecules with Layered Crystalline States into Thermotropic Liquid Crystalline Assemblies

Cubic and Columnar Supramolecular Architectures of Rod–Coil Molecules in the Melt State

Synthesis and properties of polyazomethines having flexible (n-alkyloxy)methyl side chains

Trinuclear Gold(I) Pyrazolate Complexes Exhibiting Hexagonal Columnar Mesophases with Only Three Side Chains1

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Product

Resources

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Trinuclear Gold(I) Pyrazolate Complexes Exhibiting Hexagonal Columnar Mesophases with Only Three Side Chains¹