Your search keyword '"Jackson, E.A."' showing total 3 results

1. Wavy graphene sheets from electrochemical sewing of corannulene

Author

Andrea Goldoni, Moreno Meneghetti, Gianni Barucca, Eleonora Ussano, Massimo Marcaccio, Simona Fermani, Lawrence T. Scott, Claudio Fontanesi, Lucio Litti, Giovanni Valenti, Davide Vanossi, Edward A. Jackson, Carlo Bruno, Francesco Paolucci, Luca Pasquali, Bruno C., Ussano E., Barucca G., Vanossi D., Valenti G., Jackson E.A., Goldoni A., Litti L., Fermani S., Pasquali L., Meneghetti M., Fontanesi C., Scott L.T., Paolucci F., and Marcaccio M.

Subjects

radical cation reactivity, Materials science, Curved polyaromatic hydrocarbon, electron microscopy, Graphene, oxidation, graphene, chemistry.chemical_element, scanning probe microscopy, General Chemistry, Electrochemistry, law.invention, Characterization (materials science), Scanning probe microscopy, chemistry.chemical_compound, Chemistry, Chemical engineering, chemistry, Polymerization, electrochemistry, law, Corannulene, Honeycomb, Carbon

Abstract

The presence of non-hexagonal rings in the honeycomb carbon arrangement of graphene produces rippled graphene layers with valuable chemical and physical properties. In principle, a bottom-up approach to introducing distortion from planarity of a graphene sheet can be achieved by careful insertion of curved polyaromatic hydrocarbons during the growth of the lattice. Corannulene, the archetype of such non-planar polyaromatic hydrocarbons, can act as an ideal wrinkling motif in 2D carbon nanostructures. Herein we report an electrochemical bottom-up method to obtain egg-box shaped nanographene structures through a polycondensation of corannulene that produces a new conducting layered material. Characterization of this new polymeric material by electrochemistry, spectroscopy, electron microscopy (SEM and TEM), scanning probe microscopy, and laser desorption-ionization time of flight mass spectrometry provides strong evidence that the anodic polymerization of corannulene, combined with electrochemically induced oxidative cyclodehydrogenations (Scholl reactions), leads to polycorannulene with a wavy graphene-like structure., A bottom-up synthesis of wavy graphene structures obtained through an anodic polymerization process, combined with an electrochemically triggered oxidative cyclodehydrogenation, of the bowl-shaped polyaromatic hydrocarbon corannulene.

Published

2021

2. Intense and Tunable Electrochemiluminescence of Corannulene

Author

Giovanni Valenti, Lawrence T. Scott, Edward A. Jackson, Massimo Marcaccio, Andrea Fiorani, Stefania Rapino, Carlo Bruno, Francesco Paolucci, Valenti G., Bruno C., Rapino S., Fiorani A., Jackson E.A., Scott L.T., Paolucci F., and Marcaccio M.

Subjects

Benzoyl peroxide, Photochemistry, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, General Energy, chemistry, Corannulene, medicine, Molecule, Electrochemiluminescence, Physical and Theoretical Chemistry, Acetonitrile, Blue light, medicine.drug

Abstract

Electrochemiluminescence of corannulene in acetonitrile by the use of coreactants is reported here for the first time. The investigation has been carried out utilizing both benzoyl peroxide as a sacrificial coreactant and arylamine derivatives as nonsacrificial species to perform mixed-annihilation processes. The electrochemiluminescence produces an intense blue light. The use of different tris(arylamines) as mixed-annihilation coreactants gives rise to exciplexes with corannulene that emit at different wavelengths, thus allowing the emission color to be tuned by changing the coreactant molecule. This opens a potential pathway to exploitation of such an intriguing carbon structure for building efficient blue-light emitting devices.

Published

2010

3. Electrochemical and Theoretical Investigation of Corannulene Reduction Processes

Author

Carlo Bruno, Massimo Marcaccio, Lawrence T. Scott, Rois Benassi, Edward A. Jackson, Alessio Passalacqua, Claudio Fontanesi, Francesco Paolucci, Bruno C., Benassi R., Passalacqua A., Paolucci F., Fontanesi C., Marcaccio M., Jackson E.A., and Scott L.T.

Subjects

Corannulene, Electrochemical, Theoretical, Reduction Processes, Inorganic chemistry, Solvation, Ab initio, Electrolyte, Electrochemistry, Surfaces, Coatings and Films, chemistry.chemical_compound, Models, Chemical, chemistry, Materials Chemistry, Dimethylformamide, Computer Simulation, Polycyclic Aromatic Hydrocarbons, Physical and Theoretical Chemistry, Acetonitrile, Oxidation-Reduction, Dimethylamine

Abstract

The voltammetric generation of corannulene anions was investigated over a large range of experimental conditions comprising either "traditional" electrochemical solvents, such as dimethylformamide, acetonitrile, and tetrahydrofuran, or "unconventional" solvents, such as liquid ammonia, liquid methylamine, or liquid dimethylamine, and several different supporting electrolytes. Strong ion pairing effects were found to dominate the electrochemical generation of corannulene higher anions, and through the suitable choice of the solvent/electrolyte system, we observed, for the first time, the reversible electrochemical generation of up to the triply reduced corannulene. The standard potentials obtained experimentally compared rather well with the theoretical values calculated by ab initio and density functional methods, in which solvation and ion pairing effect were explicitly taken into account. In particular, the calculations considered the effect of the electrolyte cation size on ion pairing in order to rationalize the occurrence of the third reduction within the experimental potential window.

Published

2009