In this computational study, we illustrate a method for computing phosphorescence and circularly polarized phosphorescence spectra of molecular systems, which takes into account vibronic effects including both Franck-Condon and Herzberg-Teller contributions. The singlet and triplet states involved in the phosphorescent emission are described within the harmonic approximation, and the method fully takes mode-mixing effects into account when evaluating Franck-Condon integrals. Spin-orbit couplings, which are responsible for these otherwise forbidden phenomena, are accounted for by means of a relativistic two-component time-dependent density functional theory method. The model is applied to two types of chiral systems: camphorquinone, a rigid ...
Thesis (Ph.D.)--University of Washington, 2017-06Time-dependent electronic structure theory has the ...
International audienceThe calculation of magnetic transition dipole moments and rotatory strengths w...
We present a computational approach of general applicability to simulate the vibronic line shapes of...
In this computational study, we illustrate a method for computing phosphorescence and circularly pol...
We report the first calculations of rotational strengths for circularly polarised phosphorescence at...
In this work, we present a general method for predicting phosphorescence rates and spectra for molec...
In this work, we present a general method for predicting phosphorescence rates and spectra for molec...
We present a computational methodology to calculate the intensity of circular dichroism (CD) in spin...
Chiroptical spectra are among the most suitable techniques for investigating the ground and excited ...
In most organic molecules, phosphorescence has its origin in transitions from triplet exited states ...
The main focus of my Ph.D. work has been on building a vibronic coupling model for multichromophores...
The present paper reports a comprehensive quantum mechanical investigation on the luminescence prope...
We present a computational approach of general applicability to simulate the vibronic line shapes of...
An effective time-dependent (TD) approach to compute vibrationally resolved optical spectra from fir...
Here, we extend a recently introduced theoretical-computational procedure [M. D'Alessandro, M. Aschi...
Thesis (Ph.D.)--University of Washington, 2017-06Time-dependent electronic structure theory has the ...
International audienceThe calculation of magnetic transition dipole moments and rotatory strengths w...
We present a computational approach of general applicability to simulate the vibronic line shapes of...
In this computational study, we illustrate a method for computing phosphorescence and circularly pol...
We report the first calculations of rotational strengths for circularly polarised phosphorescence at...
In this work, we present a general method for predicting phosphorescence rates and spectra for molec...
In this work, we present a general method for predicting phosphorescence rates and spectra for molec...
We present a computational methodology to calculate the intensity of circular dichroism (CD) in spin...
Chiroptical spectra are among the most suitable techniques for investigating the ground and excited ...
In most organic molecules, phosphorescence has its origin in transitions from triplet exited states ...
The main focus of my Ph.D. work has been on building a vibronic coupling model for multichromophores...
The present paper reports a comprehensive quantum mechanical investigation on the luminescence prope...
We present a computational approach of general applicability to simulate the vibronic line shapes of...
An effective time-dependent (TD) approach to compute vibrationally resolved optical spectra from fir...
Here, we extend a recently introduced theoretical-computational procedure [M. D'Alessandro, M. Aschi...
Thesis (Ph.D.)--University of Washington, 2017-06Time-dependent electronic structure theory has the ...
International audienceThe calculation of magnetic transition dipole moments and rotatory strengths w...
We present a computational approach of general applicability to simulate the vibronic line shapes of...