Atomic-scale imaging and spectroscopy of electroluminescence at molecular interfaces
The conversion of electric power to light is an important scientific and technological
challenge. Advanced experimental methods have provided access to explore the relevant …
challenge. Advanced experimental methods have provided access to explore the relevant …
Photonics and spectroscopy in nanojunctions: a theoretical insight
M Galperin - Chemical Society Reviews, 2017 - pubs.rsc.org
The progress of experimental techniques at the nanoscale in the last decade made optical
measurements in current-carrying nanojunctions a reality, thus indicating the emergence of …
measurements in current-carrying nanojunctions a reality, thus indicating the emergence of …
Molecular optoelectronics: the interaction of molecular conduction junctions with light
The interaction of light with molecular conduction junctions is attracting growing interest as a
challenging experimental and theoretical problem on one hand, and because of its potential …
challenging experimental and theoretical problem on one hand, and because of its potential …
Resonant electron transport in single-molecule junctions: Vibrational excitation, rectification, negative differential resistance, and local cooling
R Härtle, M Thoss - Physical Review B—Condensed Matter and Materials …, 2011 - APS
Vibronic effects in resonant electron transport through single-molecule junctions are
analyzed. The study is based on generic models for molecular junctions, which include …
analyzed. The study is based on generic models for molecular junctions, which include …
Many-body state description of single-molecule electroluminescence driven by a scanning tunneling microscope
Electron transport and optical properties of a single molecule in contact with conductive
materials have attracted considerable attention because of their scientific importance and …
materials have attracted considerable attention because of their scientific importance and …
[HTML][HTML] Parameter-free driven Liouville-von Neumann approach for time-dependent electronic transport simulations in open quantum systems
A parameter-free version of the recently developed driven Liouville-von Neumann equation
[T. Zelovich et al., J. Chem. Theory Comput. 10 (8), 2927–2941 (2014)] for electronic …
[T. Zelovich et al., J. Chem. Theory Comput. 10 (8), 2927–2941 (2014)] for electronic …
Light-induced electronic non-equilibrium in plasmonic particles
We consider the transient non-equilibrium electronic distribution that is created in a metal
nanoparticle upon plasmon excitation. Following light absorption, the created plasmons …
nanoparticle upon plasmon excitation. Following light absorption, the created plasmons …
Light‐stimulated charge transport in bilayer molecular junctions for photodetection
SK Saxena, SR Smith, M Supur… - Advanced Optical …, 2019 - Wiley Online Library
Eleven bilayer molecular junctions (MJs) consisting of two different 5–7 nm thick molecular
layers between conducting contacts are investigated to determine how orbital energies and …
layers between conducting contacts are investigated to determine how orbital energies and …
Long-range activationless photostimulated charge transport in symmetric molecular junctions
Molecular electronic junctions consisting of nitroazobenzene oligomers covalently bonded
to a conducting carbon surface using an established “all-carbon” device design were …
to a conducting carbon surface using an established “all-carbon” device design were …
Driven Liouville von Neumann equation in Lindblad form
The Driven Liouville von Neumann approach [J. Chem. Theory Comput. 2014, 10, 2927–
2941] is a computationally efficient simulation method for modeling electron dynamics in …
2941] is a computationally efficient simulation method for modeling electron dynamics in …