Juraj Nožár scite author profile

Time-resolved terahertz spectroscopy and combination of quantum chemistry modeling and molecular dynamics simulations were used for the determination of charge carrier mobility in poly[methyl(phenyl)silylene]. Using time-resolved THz spectroscopy we established the on-chain charge carrier drift mobility in PMPSi as 0.02 cm(2) V(-1) s(-1). This value is low due to the formation of polarons: the hole is self-trapped in a potential formed by local chain distortion and the transient THz conductivity spectra show signatures of its oscillations within this potential well. This view is supported by the agreement between experimental and calculated values of the on-chain charge carrier mobility.

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Polaron binding energy in polymers: poly[methyl(phenyl)silylene]

Nožár

Nešpůrek

Šebera

2011

J Mol Model

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This paper presents a theoretical approach to the evaluation of polaron binding energy in polymers. Quantum chemical calculations were performed on a model polymer, poly[methyl(phenyl)silylene], employing the B3LYP and CAM-B3LYP method. The polaron binding energy consists of two terms: the molecular deformation energy and electron-phonon term. Its value was found to be about 0.23 eV at the CAM-B3LYP/6-31G level of theory.

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Polaronic transport in polysilanes

Nešpůrek

Nožár

Kadashchuk

et al. 2009

J. Phys.: Conf. Ser.

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Juraj Nožár

Interaction of nitrogen dioxide with sulfonamide-substituted phthalocyanines: Towards NO2 gas sensor

Charge carrier mobility in poly[methyl(phenyl)silylene] studied by time-resolved terahertz spectroscopy and molecular modelling

Polaron binding energy in polymers: poly[methyl(phenyl)silylene]

Polaronic transport in polysilanes

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