Your search keyword '"Zeljko Tomovic"' showing total 4 results

1. Surface-Induced Diastereomeric Complex Formation of a Nucleoside at the Liquid/Solid Interface: Stereoselective Recognition and Preferential Adsorption

Author

Hong Xu, Bernard Van Averbeke, Zeljko Tomovic, Albertus P. H. J. Schenning, Freek J. M. Hoeben, Guojie Wang, David Beljonne, Inge De Cat, Elke Ghijsens, E. W. Meijer, Roberto Lazzaroni, Steven De Feyter, Zongxia Guo, Jianbin Lin, Stimuli-responsive Funct. Materials & Dev., Macromolecular and Organic Chemistry, and Macro-Organic Chemistry

Subjects

Models, Molecular, Surface Properties, Stereochemistry, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biochemistry, Catalysis, Stereocenter, chemistry.chemical_compound, Colloid and Surface Chemistry, Molecular Structure, Chemistry, Enantioselective synthesis, Diastereomer, Stereoisomerism, General Chemistry, 021001 nanoscience & nanotechnology, Chiral resolution, 0104 chemical sciences, Crystallography, Polyvinyls, Adsorption, Enantiomer, Homochirality, 0210 nano-technology, Thymidine, Nucleoside

Abstract

With the aim of achieving surface-mediated enantioselective adsorption, the self-assembly of chiral oligo(p-phenylenevinylene) (OPV3T) with nucleosides is investigated at the liquid/solid interface by means of scanning tunneling microscopy and molecular modeling. OPV3T enantiomers form mirror related hexameric rosette patterns. The DNA nucleoside, thymidine, does not self-assemble into stable adlayers but coadsorbs with OPV3T on the surface, leading to a pattern transformation of OPV3T from rosettes to dimers, and a change in chiral expression as well. Diastereoselective recognition between OPV3T and thymidine enantiomers can be used to resolve thymidine enantiomers at an achiral surface with an OPV3T enantiomer as the resolving agent. The impact of molar ratio and concentration on the self-assembly and chiral resolution is systematically investigated. Because there is no interaction between OPV3T and thymidine in solution, the liquid/solid interface acts as the platform for the chiral resolution of thymidine enantiomers.

Published

2013

2. Star-shaped oligo(p-phenylenevinylene) substituted hexaarylbenzene: Purity, stability, and chiral self-assembly

Author

Albertus P. H. J. Schenning, Maarten M. J. Smulders, Subi J. George, E. W. Meijer, J.L.J. van Dongen, de S. Feyter, Haolan Xu, Zeljko Tomovic, Philippe Leclère, Wojciech Pisula, Macromolecular and Organic Chemistry, and Institute for Complex Molecular Systems

Subjects

Chemistry, General Chemistry, Biochemistry, Catalysis, law.invention, Gel permeation chromatography, Crystallography, Colloid and Surface Chemistry, Optical microscope, law, Monolayer, Molecule, Organic chemistry, Hexagonal lattice, Supramolecular electronics, Self-assembly, Silicon oxide

Abstract

An oligo(p-phenylenevinylene) (OPV)-substituted hexaarylbenzene has been synthesized and fully characterized. Recycling gel permeation chromatography appeared to be a powerful technique to obtain the OPV molecules in a very pure form. X-ray analysis and polarization optical microscopy revealed that the OPV molecule is plastic crystalline at room temperature with an ordered columnar superstructure. In apolar solvents, the molecules self-assemble via a highly cooperative fashion into right-handed chiral superstructures, which are stable even at high temperatures and low concentration. Atomic force microscopy revealed right-handed fibers with a diameter of 6 nm, indicating pi-stacked aggregates; on a silicon oxide substrate, supercoiled chiral structures were observed. STM studies on a liquid-solid interface showed that the star-shaped OPV molecule forms an organized monolayer having a chiral hexagonal lattice.

Published

2007

3. The Optical and Charge Transport Properties of Discotic Materials with Large Aromatic Hydrocarbon Cores

Author

Christopher D. Simpson, Klaus Müllen, Jorge Piris, Mark D. Watson, M.P. de Haas, Zeljko Tomovic, John M. Warman, Michael G. Debije, and Stimuli-responsive Funct. Materials & Dev.

Subjects

chemistry.chemical_classification, Electron mobility, Discotic liquid crystal, Analytical chemistry, General Chemistry, Biochemistry, Catalysis, Colloid and Surface Chemistry, chemistry, Absorption band, Electrical resistivity and conductivity, Molecule, Organic chemistry, Absorption (chemistry), Aromatic hydrocarbon, Doppler broadening

Abstract

The optical absorption and charge transport properties of a series of discotic molecules consisting of peripherally alkyl-substituted polycyclic aromatic cores have been investigated for core sizes, n, of 24, 42, 60, 78, 96, and 132 carbon atoms. In dilute solution, the wavelength maximum of the first absorption band increases linearly with n according to lambda(max) = 280 + 2n and the spectral features become increasingly broadened. The two smallest core compounds display a slight red-shift and increased spectral broadening in spin-coated films. For derivatives with n = 24, 42, 60, and 96, the one-dimensional, intracolumnar charge mobility, Sigma mu(1D), was determined using the pulse-radiolysis time-resolved microwave conductivity technique. For the compounds which were crystalline solids at room temperature, Sigma mu(1D) lay within the range 0.4-1.0 cm(2)/Vs. In the discotic mesophases at ca. 100 degrees C, Sigma mu(1D) was somewhat lower and varied from 0.08 to 0.38 cm(2)/Vs. The mobility values in both phases are considerably larger than the maximum values found previously for discotic triphenylene derivatives. However, the recently proposed trend toward increasing mobility with increasing core size is not substantiated by the results on the present series of increasingly large aromatic core compounds.

Published

2004

4. High anisotropy of the field-effect transistor mobility in magnetically aligned discotic liquid-crystalline semiconductors

Author

Jishan Wu, Albertus P. H. J. Schenning, Dorothee Wasserberg, Zeljko Tomovic, Klaus Müllen, Harry J. Wondergem, Dago M. de Leeuw, I. O. Shklyarevskiy, Natalie Stutzmann, Peter C. M. Christianen, Jan C. Maan, Pascal Jonkheijm, Macromolecular and Organic Chemistry, Chemical Engineering and Chemistry, Macro-Organic Chemistry, and Molecular Materials and Nanosystems

Subjects

Electron mobility, Condensed matter physics, business.industry, Chemistry, Discotic liquid crystal, General Chemistry, Correlated Electron Systems / High Field Magnet Laboratory (HFML), Biochemistry, Catalysis, Magnetic field, Organic semiconductor, chemistry.chemical_compound, Colloid and Surface Chemistry, Semiconductor, Optics, Hexabenzocoronene, Charge carrier, Field-effect transistor, business

Abstract

A magnetic field has been utilized for producing highly oriented films of a substituted hexabenzocoronene (HBC). Optical microscopy studies revealed large area HBC monodomains that covered the entire film, while wide-angle X-ray measurements showed that the HBC molecules are aligned with their planes along the applied field. On the basis of this method, solution-processed field-effect transistors (FET) have been constructed with charge carrier mobilities of up to 10(-3) cm2/V.s, which are significantly enhanced with respect to the unaligned material. Exceptionally high mobility anisotropies of 25-75 for current flow parallel and perpendicular to the alignment direction have been measured as a function of the channel length. Atomic force microscopy performed on the FET structures reveals fibril superstructures that are oriented perpendicularly to the magnetic field direction, consisting of molecular columns with a slippage angle of 40 degrees between the molecules. For channel lengths larger than 2.5 mum, the fibrils are smaller than the electrode spacing, which adversely affects the device performance.

Published

2005