Add to ORKGCharge transfer -CT- reactions are ubiquitous processes in nature. Photoexcited systems can be monitored to modulate the process and to rationally design photosensitive materials. Current vibrational spectroscopies provide experimental data with high time resolution, although the interpretation at molecular level requires the help of theory and computation. In this context, the atomistic description provided by theoretical analysis and ab initio molecular dynamics (AIMD) are a valid support. Isolated molecular systems are a good starting point to disentangle the complexity of anharmonicity and for the method's assessment. This contribution focuses on photoinduced CT reactions of benchmark systems showing a complex photophysical behaviour bo...
We simulated an excited state proton transfer in green fluorescent protein by excited state ab initi...
The combination of time-dependent density functional theory (TDDFT) for the description of excited s...
Understanding excited states is vital to photochemistry and spectroscopy, yet the study of excited s...
Charge transfer -CT- reactions are ubiquitous processes in nature. Photoexcited systems can be monit...
Pump probe spectroscopy techniques have enabled the direct observation of a variety of transient mol...
The main vibrational spectroscopy techniques are based on the processes of infrared radiation absorp...
We present a novel time-resolved vibrational analysis for studying photoinduced nuclear relaxation. ...
We present electronic structure methods to unveil the non-radiative pathways of photoinduced charge ...
Advances in time resolved vibrational spectroscopy techniques provided a new stimulus for understand...
This project involved the experimental probing of the electronic excited states generated by photoin...
We characterize the dynamic nature of the lowest excited state in a pentacene/C<sub>60</sub> complex...
Thesis (Ph.D.)--University of Washington, 2019Developing a thorough mechanistic understanding of pho...
: Photoinduced charge transfer (CT) excited states and their relaxation mechanisms can be highly int...
The PhD project was devoted to the development and the validation of a general computational protoco...
Author Institution: Department of Physics, Ben Gurion University of the Negev, Beer Sheva 84105, ISR...
We simulated an excited state proton transfer in green fluorescent protein by excited state ab initi...
The combination of time-dependent density functional theory (TDDFT) for the description of excited s...
Understanding excited states is vital to photochemistry and spectroscopy, yet the study of excited s...
Charge transfer -CT- reactions are ubiquitous processes in nature. Photoexcited systems can be monit...
Pump probe spectroscopy techniques have enabled the direct observation of a variety of transient mol...
The main vibrational spectroscopy techniques are based on the processes of infrared radiation absorp...
We present a novel time-resolved vibrational analysis for studying photoinduced nuclear relaxation. ...
We present electronic structure methods to unveil the non-radiative pathways of photoinduced charge ...
Advances in time resolved vibrational spectroscopy techniques provided a new stimulus for understand...
This project involved the experimental probing of the electronic excited states generated by photoin...
We characterize the dynamic nature of the lowest excited state in a pentacene/C<sub>60</sub> complex...
Thesis (Ph.D.)--University of Washington, 2019Developing a thorough mechanistic understanding of pho...
: Photoinduced charge transfer (CT) excited states and their relaxation mechanisms can be highly int...
The PhD project was devoted to the development and the validation of a general computational protoco...
Author Institution: Department of Physics, Ben Gurion University of the Negev, Beer Sheva 84105, ISR...
We simulated an excited state proton transfer in green fluorescent protein by excited state ab initi...
The combination of time-dependent density functional theory (TDDFT) for the description of excited s...
Understanding excited states is vital to photochemistry and spectroscopy, yet the study of excited s...