Auger processes, multiple exciton generation, and Auger recombination, provide and disturb a potential route to increase solar cell efficiencies by creating multiple charge carriers, respectively. Physical mechanisms of the Auger processes can be deduced from the temperature dependence. Our real-time <i>ab initio</i> simulation found logarithmic temperature dependence of the Auger rates in semiconductor quantum dots (QDs), which agrees well with the recent experimental observations. This anomalous temperature dependence is not only determined by static electronic structures of the QDs depending on temperature, but also attributed to dynamical electron–phonon couplings, directly demonstrating that the Auger processes are actually induced by ...
Charged exciton states commonly occur both in spectroscopic studies of quantum dots (QDs) and during...
The fast nonradiative decay of multiexcitonic states via Auger recombination is a fundamental proces...
A theory of photoluminescence in semiconductor quantum dots is developed which relies on two key ing...
Auger processes constitute an essential component of excitedstate evolution in most nanoscale materi...
A pseudopotential theory of Auger processes in CdSe quantum dots was presented. Auger multiexciton r...
We report experimental studies of temperature-dependent Auger recombination coefficients in self-ass...
Phonon-induced relaxation, multiple exciton generation and recombination (MEG and MER) govern optica...
Auger recombination is a nonradiative three-particle process wherein the electron–hole recombination...
We study the interplay between Auger effects and ionization processes in the limit of strong electro...
Recently, highly accurate multi configuration time dependent Hartree electron dynamics calculations ...
We have calculated radiative and Auger recombination rates due to localized recombination in individ...
Auger recombination is the main non-radiative decay pathway for multi-carrier states of colloidal qu...
The principal mechanisms of Auger recombination of nonequilibrium carriers in semiconductor heterost...
Semiconductor quantum dots have been investigated in many different aspects, from fundamental semico...
Application of colloidal semiconductor quantum dots (QDs) in optical and optoelectronic devices is o...
Charged exciton states commonly occur both in spectroscopic studies of quantum dots (QDs) and during...
The fast nonradiative decay of multiexcitonic states via Auger recombination is a fundamental proces...
A theory of photoluminescence in semiconductor quantum dots is developed which relies on two key ing...
Auger processes constitute an essential component of excitedstate evolution in most nanoscale materi...
A pseudopotential theory of Auger processes in CdSe quantum dots was presented. Auger multiexciton r...
We report experimental studies of temperature-dependent Auger recombination coefficients in self-ass...
Phonon-induced relaxation, multiple exciton generation and recombination (MEG and MER) govern optica...
Auger recombination is a nonradiative three-particle process wherein the electron–hole recombination...
We study the interplay between Auger effects and ionization processes in the limit of strong electro...
Recently, highly accurate multi configuration time dependent Hartree electron dynamics calculations ...
We have calculated radiative and Auger recombination rates due to localized recombination in individ...
Auger recombination is the main non-radiative decay pathway for multi-carrier states of colloidal qu...
The principal mechanisms of Auger recombination of nonequilibrium carriers in semiconductor heterost...
Semiconductor quantum dots have been investigated in many different aspects, from fundamental semico...
Application of colloidal semiconductor quantum dots (QDs) in optical and optoelectronic devices is o...
Charged exciton states commonly occur both in spectroscopic studies of quantum dots (QDs) and during...
The fast nonradiative decay of multiexcitonic states via Auger recombination is a fundamental proces...
A theory of photoluminescence in semiconductor quantum dots is developed which relies on two key ing...