Your search keyword '"Ivanov, Maxim"' showing total 3 results

1. The Role of Torsional Dynamics on Hole and Exciton Stabilization in π‐Stacked Assemblies: Design of Rigid Torsionomers of a Cofacial Bifluorene.

Author

Wang, Denan, Ivanov, Maxim V., Kokkin, Damian, Loman, John, Cai, Jin‐Zhe, Reid, Scott A., and Rathore, Rajendra

Subjects

*DELOCALIZATION energy, *FLUORENE, *METHANE, *CHLORFLURENOL, *POLYMERS

Abstract

Abstract: Exciton and charge delocalization across π‐stacked assemblies is of importance in biological systems and functional polymeric materials. To examine the requirements for exciton and hole stabilization, cofacial bifluorene (F2) torsionomers were designed, synthesized, and characterized: unhindered (model) MeF2, sterically hindered tBuF2, and cyclophane‐like CF2, where fluorenes are locked in a perfect sandwich orientation via two methylene linkers. This set of bichromophores with varied torsional rigidity and orbital overlap shows that exciton stabilization requires a perfect sandwich‐like arrangement, as seen by strong excimeric‐like emission only in CF2 and MeF2. In contrast, hole delocalization is less geometrically restrictive and occurs even in sterically hindered tBuF2, as judged by 160 mV hole stabilization and a near‐IR band in the spectrum of its cation radical. These findings underscore the diverse requirements for charge and energy delocalization across π‐stacked assemblies. [ABSTRACT FROM AUTHOR]

Published

2018

2. FHBC, a Hexa‐<italic>peri</italic>‐hexabenzocoronene–Fluorene Hybrid: A Platform for Highly Soluble, Easily Functionalizable HBCs with an Expanded Graphitic Core.

Author

Navale, Tushar S., Ivanov, Maxim V., Hossain, Mohammad M., and Rathore, Rajendra

Subjects

*HEXABENZOCORONENES, *PHOTOVOLTAIC cells, *ELECTROACTIVE substances, *FLUORENE compounds, *CHARGE transfer

Abstract

Abstract: Materials based upon hexa‐peri‐hexabenzocoronenes (HBCs) show significant promise in a variety of photovoltaic applications. There remains the need, however, for a soluble, versatile, HBC‐based platform, which can be tailored by incorporation of electroactive groups or groups that can prompt self‐assembly. The synthesis of a HBC–fluorene hybrid is presented that contains an expanded graphitic core that is highly soluble, resists aggregation, and can be readily functionalized at its vertices. This new HBC platform can be tailored to incorporate six electroactive groups at its vertices, as exemplified by a facile synthesis of a representative hexaaryl derivative of FHBC. Synthesis of new FHBC derivatives, containing electroactive functional groups that can allow controlled self‐assembly, may serve as potential long‐range charge‐transfer materials for photovoltaic applications. [ABSTRACT FROM AUTHOR]

Published

2018

3. Unraveling the Coulombic Forces in Electronically Decoupled Bichromophoric Systems during Two Successive Electron Transfers.

Author

Ivanov, Maxim V., Wadumethrige, Shriya H., Wang, Denan, and Rathore, Rajendra

Subjects

*CHROMOPHORES, *CHARGE exchange, *ELECTROSTATICS, *FLUORENE, *ELECTRON donor-acceptor complexes

Abstract

Coulombic forces are vital in modulating the electron transfer dynamics in both synthetic and biological polychromophoric assemblies, yet quantitative studies of the impact of such forces are rare, as it is difficult to disentangle electrostatic forces from simple electronic coupling. To address this problem, the impact of Coulombic interactions in the successive removal of two electrons from a model set of spirobifluorenes, where the interchromophoric electronic coupling is nonexistent, is quantitatively assessed. By systematically varying the separation of the bifluorene moieties using model compounds, ion pairing, and solvation, these interactions, with energies up to about 0.4 V, are absent at distances greater than about 9 Å. These findings can be (quantitatively) applied for the design of polychromophoric assemblies, whereby the redox properties of donors and/or acceptors can be tuned by judicious positioning of the charged groups to control the electron-transfer dynamics. [ABSTRACT FROM AUTHOR]

Published

2017