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Aromatic Bent-Core Liquid Crystals:  an Opportunity for Introducing Terdentate Binding Units into Mesophases

2012, Nozary, Homayoun, Piguet, Claude, Rivera, Jean-Pierre, Tissot, Paul, Morgantini, Pierre-Yves, Weber, Jacques, Bernardinelli, Gérald, Bünzli, Jean-Claude G., Deschenaux, Robert, Donnio, Bertrand, Guillon, Daniel

Lipophilic linear semirigid side arms containing two or three successive phenyl rings separated by carboxylate spacers have been connected to the 5 or 6 positions of bent aromatic terdentate 2,6-bis(benzimidazol-2-yl)pyridine binding units to give extended V-shaped (L11) and I-shaped receptors (L12, L12b, and L13). The carboxylate spacers limit the flexibility of the side arms and provide crossed arrangements of the successive aromatic rings in the crystal structure of L12b (C63H61N5O10; triclinic, P1̄, Z = 2) in agreement with semiempirical calculations performed on optimized gas-phase geometries. Moreover, the carboxylate spacers in L11−L13 prevent efficient electronic delocalization between the connected aromatic rings and act as weak π acceptors producing a slight increase of the energy of the 1ππ* and 3ππ* levels centered on the terdentate binding unit. Intermolecular π-stacking interactions observed in the crystal of L12b are invoked to rationalize (i) the peculiar excimer emission of L11 in the solid state and (ii) the rich and varied calamitic (I-shaped L12, L12b, and L13) and columnar (V-shaped L11) mesomorphism observed at high temperature. The ColR mesophase detected for L11 demonstrates that V-shaped bent terdentate binding units are compatible with liquid-crystalline behavior. Complexation of L11 with lanthanide(III) produces I-shaped complexes [Ln(L11)(NO3)3] (Ln = La, Eu, Gd, Tb, and Lu) possessing a large axial anisometry as found in the crystal structure of [Lu(L11)(CF3CO2)3(H2O)] (LuC81H87N5O17F9; triclinic, P1̄, Z = 2), which exists in the solid state as H-bonded dimers. No mesomorphism is detected for the complexes as a result of the large perpendicular expansion brought by the metallic coordination site, but the high energy of the ligand-centered 3ππ* prevents Eu(5D0) → L11 back transfer in the Eu(III) complex, which thus exhibits sizable red luminescence at room temperature, a crucial point for the design of luminescent materials.

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Liquid-crystalline methanofullerodendrimers which display columnar mesomorphism

2008, Maringa, Natacha, Lenoble, Julie, Donnio, Bertrand, Guillon, Daniel, Deschenaux, Robert

Liquid-crystalline methanofullerodendrimers were synthesized via the Bingel addition reaction of mesomorphic malonate derivatives and C60. Second- and third-generation poly(benzyl ether) dendrons were selected as liquid-crystalline promoters to induce columnar mesomorphism. Based on a convergent and modular synthetic methodology, symmetrical (two identical dendrons) and non-symmetrical (two different dendrons) dendrimers were prepared, as well as hemidendrimers (only one dendron). The liquid-crystalline properties of the malonates and fullerodendrimers were investigated by polarized optical microscopy, differential scanning calorimetry, and X-ray diffraction. All the malonates give rise to hexagonal columnar phases of p6mm symmetry. As for the fullerodendrimers, the second-generation hemidendrimer shows a rectangular columnar phase of c2mm symmetry, while the other materials give rise to hexagonal columnar phases of p6mm symmetry.

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Liquid−Crystalline Janus-Type Fullerodendrimers Displaying Tunable Smectic−Columnar Mesomorphism

2007, Lenoble, Julie, Campidelli, Stéphane, Maringa, Natacha, Donnio, Bertrand, Guillon, Daniel, Yevlampieva, Natalia, Deschenaux, Robert

Janus-type liquid−crystalline fullerodendrimers were synthesized via the 1,3-dipolar cycloaddtition of two mesomorphic dendrons and C60. By assembling poly(aryl ester) dendrons functionalized with cyanobiphenyl groups, displaying lamellar mesomorphism, with poly(benzyl ether) dendrons carrying alkyl chains, which display columnar mesomorphism, we could tailor by design the liquid−crystalline properties of the title compounds as a function of each dendron size. The liquid−crystalline properties were examined by polarized optical microscopy, differential scanning calorimetry, and X-ray diffraction. Depending on the dendrimer generations, smectic (SmC and/or SmA phases) or columnar (Colr-c2mm or Colr-p2gg phases) mesomorphism was obtained. The supramolecular organization is governed by (1) the adequacy of the cross-sectional area of the dendrons, (2) the microsegregation of the dendrimer, (3) the deformation of the dendritic core, and (4) the dipolar interactions between the cyanobiphenyl groups. Comparison of the mesomorphic properties of two fullerodendrimers with those of model compounds (fullerene-free analogues) indicated that the C60 unit does not influence the type of mesophase that is formed. Molecular properties determined in solution (permanent dipole moment, specific dielectric polarization, molar Kerr constant) confirm that microsegregation persists in solution and strengthen the models proposed for the structure of the mesophases.

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Liquid-Crystalline Fullerodendrimers which Display Columnar Phases

2006, Lenoble, Julie, Maringa, Natacha, Campidelli, Stephane, Donnio, Bertrand, Guillon, Daniel, Deschenaux, Robert

The title compds. were synthesized by applying the 1,3-dipolar cycloaddn. reaction of aldehyde-based poly(benzyl ether) dendrimers and sarcosine (N-methylglycine) to [60]fullerene (C60). The dendritic building blocks used to functionalize C60 displayed cubic and hexagonal columnar phases. The fullerene derivs. showed rectangular columnar phases of c 2. mm symmetry. [on SciFinder(R)]

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[60]fullerene-containing thermotropic liquid crystals

2012, Guillon, Daniel, Donnio, Bertrand, Deschenaux, Robert

A review. [60]Fullerene-contg. liq. crystals have reached a high degree of sophistication from the point of view of both their structure and mesomorphic properties. Owing to their unique photophys. and electrochem. characteristics, [60]fullerene-based liq. crystals are promising compds. for the development of nanotechnol. by the bottom-up approach. Indeed, good studies have shown that liq.-cryst. fullerenes can play a major role in electron transport and photoconduction, and photoinduced electron and/or energy transfer has been achieved in donor-acceptor dyads when combined with ferrocene, tetrathiafulvalene, or oligophenylenevinylene. [on SciFinder(R)]

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Liquid-crystalline fullerodendrimers

2007, Deschenaux, Robert, Donnio, Bertrand, Guillon, Daniel

Addition of liquid-crystalline dendrimers onto [60]fullerene led to thermotropic liquid crystals which displayed various types of mesophases, including chiral nematic, smectic B, smectic A and columnar phases. This approach represents an interesting way for the design of self-organized structures based on [60]fullerene, and opens the way to optoelectronic applications for this carbon allotrope, such as for the development of photovoltaic devices and molecular switches.

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Ferrocene-containing optically active liquid-crystalline side-chain polysiloxanes with planar chirality

2006, Brettar, Julie, Burgi, Thomas, Donnio, Bertrand, Guillon, Daniel, Scharf, Toralf, Deschenaux, Robert

Optically active liq.-cryst. side-chain polysiloxanes have been prepd. by grafting planar chiral ferrocene-based vinyl monomers onto com. available polyhydrosiloxane. Two ferrocene monomers have been synthesized: a linear-type monomer, which displays a monotropic chiral smectic C (SC*) phase and enantiotropic smectic A (SA) and chiral N (N*) phases, and a laterally branched monomer, which shows an enantiotropic N* phase. X-ray diffraction anal. indicates a monomol. organization of the monomeric units within the smectic layers. The polymers retain the liq.-cryst. phases of their corresponding monomers. The UV-vis and CD (CD) spectra are in agreement with the structure of the monomers and polymers. The molar absorption coeff. (?) and molar circular dichroic absorption coeff. (??) values of the polymers are proportional to the no. of monomeric units grafted onto them. The abs. configuration of the ferrocene carboxylic acid intermediate, used to synthesize the monomers, has been detd. on the basis of CD spectra. The helical twisting power (HTP) of the nematogenic monomer and polymer have been detd. in E7, and indicate that such materials could be used as chiral dopants. Finally, this study demonstrates that the nature of chiral phases can be controlled by structural engineering of the org. groups only, with ferrocene acting as the source of chirality. [on SciFinder(R)]

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Liquid-crystalline fullerodendrimers and fullero(codendrimers)

2009, Guillon, Daniel, Donnio, Bertrand, Deschenaux, Robert

This review highlights with selected examples some relevant results in the field of fullerene-contg. thermotropic liq.-cryst. dendrimers. These examples demonstrate the wide application of dendrimers in designing supramol. fullerene materials. Structures and properties are presented according to the nature of dendrimers and mesogenic units. [on SciFinder(R)]

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Liquid-Crystalline Janus-Type Fullerodendrimers Displaying Tunable Smectic-Columnar Mesomorphism

2007, Lenoble, Julie, Campidelli, Stephane, Maringa, Natacha, Donnio, Bertrand, Guillon, Daniel, Yevlampieva, Natalia, Deschenaux, Robert

Janus-type liq.-cryst. fullerodendrimers were synthesized via the 1,3-dipolar cycloaddtition of 2 mesomorphic dendrons and C60. By assembling poly(aryl ester) dendrons functionalized with cyanobiphenyl groups, displaying lamellar mesomorphism, with poly(benzyl ether) dendrons carrying alkyl chains, which display columnar mesomorphism, the authors could tailor by design the liq.-cryst. properties of the title compds. as a function of each dendron size. The liq.-cryst. properties were examd. by polarized optical microscopy, DSC, and x-ray diffraction. Depending on the dendrimer generations, smectic (SmC and/or SmA phases) or columnar (Colr-c2mm or Colr-p2gg phases) mesomorphism was obtained. The supramol. organization is governed by (1) the adequacy of the cross-sectional area of the dendrons, (2) the microsegregation of the dendrimer, (3) the deformation of the dendritic core, and (4) the dipolar interactions between the cyanobiphenyl groups. Comparison of the mesomorphic properties of 2 fullerodendrimers with those of model compds. (fullerene-free analogs) indicated that the C60 unit does not influence the type of mesophase that is formed. Mol. properties detd. in soln. (permanent dipole moment, specific dielec. polarization, molar Kerr const.) confirm that microsegregation persists in soln. and strengthen the models proposed for the structure of the mesophases. [on SciFinder(R)]

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Encoding calamitic mesomorphism in thermotropic lanthanidomesogens

2006, Terazzi, Emmanuel, Bocquet, Bernard, Campidelli, Stéphane, Donnio, Bertrand, Guillon, Daniel, Deschenaux, Robert, Piguet, Claude

Peripheral cyanobiphenyl dendrimers impose a microphase organization compatible with smectic mesomorphism, in which the bulky nine-coordinate lanthanide core is located between the decoupled mesogenic sublayers made up of parallel cyanobiphenyl groups.