Add to ORKGWe develop a classical mapping approach suitable to describe vibrationally coupled charge transport in molecular junctions based on the Cartesian mapping for many-electron systems [B. Li and W. H. Miller, J. Chem. Phys.137, 154107 (2012)]. To properly describe vibrational quantum effects in the transport characteristics, we introduce a simple transformation rewriting the Hamiltonian in terms of occupation numbers and use a binning function to facilitate quantization. The approach provides accurate results for the nonequilibrium Holstein model for a range of bias voltages, vibrational frequencies, and temperatures. It also captures the hallmarks of vibrational quantum effects apparent in step-like structure in the current-voltage characteris...
Dephasing effects in electron transport in molecular systems connected between contacts average out ...
Off-resonant charge transport through molecular junctions has been extensively studied since the adv...
Single-molecule electronics has been envisioned as the ultimate goal in the miniaturisation of elect...
This thesis is concerned with vibrational effects in resonant charge transport through molecular jun...
In this Thesis we study several aspects of charge transport through single molecule junctions. Focu...
In the present work we study transmission of electron through vibrat- ing molecular junction interac...
The multilayer multiconfiguration time-dependent Hartree (ML-MCTDH) theory within second quantizatio...
We report low-temperature charge transport measurements of metal-molecule-metal junctions. Studies o...
Electron transport through single molecule connected to the electrodes is an interesting problem fro...
The interaction between electronic and vibrational degrees of freedom is an important mechanism in n...
Charge transport through molecular junctions is often described either as a purely coherent or a pur...
We present explicit kinetic equations for quantum transport through a general molecular quantum dot,...
Charge transport through molecular junctions is often described either as a purely coherent or a pur...
The multilayer multiconfiguration time-dependent Hartree theory within second quantization represent...
Molecular junctions, where single molecules are bound to metal or semiconductor electrodes, represen...
Dephasing effects in electron transport in molecular systems connected between contacts average out ...
Off-resonant charge transport through molecular junctions has been extensively studied since the adv...
Single-molecule electronics has been envisioned as the ultimate goal in the miniaturisation of elect...
This thesis is concerned with vibrational effects in resonant charge transport through molecular jun...
In this Thesis we study several aspects of charge transport through single molecule junctions. Focu...
In the present work we study transmission of electron through vibrat- ing molecular junction interac...
The multilayer multiconfiguration time-dependent Hartree (ML-MCTDH) theory within second quantizatio...
We report low-temperature charge transport measurements of metal-molecule-metal junctions. Studies o...
Electron transport through single molecule connected to the electrodes is an interesting problem fro...
The interaction between electronic and vibrational degrees of freedom is an important mechanism in n...
Charge transport through molecular junctions is often described either as a purely coherent or a pur...
We present explicit kinetic equations for quantum transport through a general molecular quantum dot,...
Charge transport through molecular junctions is often described either as a purely coherent or a pur...
The multilayer multiconfiguration time-dependent Hartree theory within second quantization represent...
Molecular junctions, where single molecules are bound to metal or semiconductor electrodes, represen...
Dephasing effects in electron transport in molecular systems connected between contacts average out ...
Off-resonant charge transport through molecular junctions has been extensively studied since the adv...
Single-molecule electronics has been envisioned as the ultimate goal in the miniaturisation of elect...