9,10-Anthraquinones Disubstituted with Linear Alkoxy Groups: Spectroscopy, Electrochemistry, and Peculiarities of Their 2D and 3D Supramolecular Organizations

Abstract: Spectroscopic, electrochemical, and structural properties of 2,6-dialkoxy-9,10-anthraquinones (Anth-OCn, n = 4, 6, 8, 10, and 12) of increasing alkoxy substituents length were investigated. UV–vis spectroscopy showed a substitution-induced bathochromic shift of the least energetic band from 325 nm in the case of unsubstituted anthraquinone to ca. 350 nm for the studied derivatives. Similarly as unsubstituted anthraquinone, the studied compound showed two reversible one electron reductions to a radical anion an… Show more

“…All compounds present two absorption peaks in the UV region (351 nm and B267 nm) and a shoulder in the visible region (B426 nm). The low energy peaks with a small extinction coefficient are ascribed to the np* transition of fused aromatic rings and quinone backbones as previously reported, 31 while the highest energy peaks are assigned to electronic transition from the underlying occupied molecular orbitals to the LUMO. The calculated optical band gap (Eg Opt ) for each compound classifies these materials as semiconductors (Table 2).…”

New luminescent organoboron esters based on damnacanthal: one-pot multicomponent synthesis, optical behavior, cytotoxicity, and selectivity studies against MDA-MBA-231 breast cancer cells

“…All compounds present two absorption peaks in the UV region (351 nm and B267 nm) and a shoulder in the visible region (B426 nm). The low energy peaks with a small extinction coefficient are ascribed to the np* transition of fused aromatic rings and quinone backbones as previously reported, 31 while the highest energy peaks are assigned to electronic transition from the underlying occupied molecular orbitals to the LUMO. The calculated optical band gap (Eg Opt ) for each compound classifies these materials as semiconductors (Table 2).…”

New luminescent organoboron esters based on damnacanthal: one-pot multicomponent synthesis, optical behavior, cytotoxicity, and selectivity studies against MDA-MBA-231 breast cancer cells

“…[1][2][3][4] The surface-confined self-assembly usually leads to the formation of supramolecular structures, which is hardly possible in the bulk phase. This is applied in functional organic films used, for example, in organic electronics [5][6][7][8][9][10] and catalysis. 3,[11][12][13] An equilibrium structure of the film is determined by a delicate balance between the energy gained and entropy lost upon molecular adsorption and association.…”

Thermodynamics of self-assembled molecular layers of trimesic acid from fields-supported kinetic Monte Carlo simulation

“…The self-assembly of functional organic molecules on solid surfaces is a vivid example of the molecular self-assembly into supramolecular structures having various engineering applications such as organic electronics, − sensors, ,,− catalysis, − etc. On the current level of organic synthesis, it is possible to obtain functional molecules with any possible structure and properties.…”

Thermodynamics of Rigid Self-Assembled Crystals: Molecular Simulation of Two-Phase Systems under External Fields