Add to ORKGPrimary photoprocesses of selected organometallic and coordination compounds are studied by a combination of picosecond time resolved absorption spectroscopy and quantum yield measurements in different solvents
Title Picosecond studies of energy transfers in photo-excited mixed organometal chelate
This work aims at deeper understanding of chemical reaction dynamics, ultrafast photochemical and ph...
Ultrafast femtosecond dynamics of various simple metalloporphryinates (M = Fe3+, Ni2+, Mn3+, Co2+) a...
Our research is concerned with the application of femtosecond time-resolved absorption techniques to...
The excited states of organic molecules and inorganic complexes were examined using ultrafast time r...
CONSPECTUS: The properties of transition metal complexes are interesting not only for their potentia...
Ultrafast time-resolved infrared spectroscopy provides a powerful tool for studying the photochemist...
Optical spectroscopy of transition metal complexes plays an important role in establishing excited-s...
Although it is generally assumed that photoreactions of transition metal complexes proceed through m...
Transition metal complexes display a number of charge-transfer bands in the absorption spectra. Opti...
Investigations in the field of the photochemistry and photophysics of coordination compounds have pr...
Gundlach, LarsUnderstanding the behavior of molecular excited states is critical to inform the desig...
Vibrational spectroscopy is a powerful tool for structural characterization. Modern spectroscopy has...
Transition-metal complexes of rare earth metals including ruthenium and iridium are most commonly em...
This project involved the experimental probing of the electronic excited states generated by photoin...
Title Picosecond studies of energy transfers in photo-excited mixed organometal chelate
This work aims at deeper understanding of chemical reaction dynamics, ultrafast photochemical and ph...
Ultrafast femtosecond dynamics of various simple metalloporphryinates (M = Fe3+, Ni2+, Mn3+, Co2+) a...
Our research is concerned with the application of femtosecond time-resolved absorption techniques to...
The excited states of organic molecules and inorganic complexes were examined using ultrafast time r...
CONSPECTUS: The properties of transition metal complexes are interesting not only for their potentia...
Ultrafast time-resolved infrared spectroscopy provides a powerful tool for studying the photochemist...
Optical spectroscopy of transition metal complexes plays an important role in establishing excited-s...
Although it is generally assumed that photoreactions of transition metal complexes proceed through m...
Transition metal complexes display a number of charge-transfer bands in the absorption spectra. Opti...
Investigations in the field of the photochemistry and photophysics of coordination compounds have pr...
Gundlach, LarsUnderstanding the behavior of molecular excited states is critical to inform the desig...
Vibrational spectroscopy is a powerful tool for structural characterization. Modern spectroscopy has...
Transition-metal complexes of rare earth metals including ruthenium and iridium are most commonly em...
This project involved the experimental probing of the electronic excited states generated by photoin...
Title Picosecond studies of energy transfers in photo-excited mixed organometal chelate
This work aims at deeper understanding of chemical reaction dynamics, ultrafast photochemical and ph...
Ultrafast femtosecond dynamics of various simple metalloporphryinates (M = Fe3+, Ni2+, Mn3+, Co2+) a...