International audienceThe ultrafast dynamics of copper tetraphenylporphyrin (CuTPP), copper octaethylporphyrin (CuOEP), and of the free base tetraphenylporphyrin (H2TPP), excited in the S2 state have been investigated in the gas phase by femtosecond pump/probe experiments. The porphyrins were excited in the Soret band at 400 nm. Strikingly, the S2-S1 internal conversion in H2TPP is very rapid (110 fs), as compared to that of ZnTPP (600 fs), previously observed. In turn, CuTPP and CuOEP, excited in S2, follow an efficient and different relaxation pathway from that of other open-shell metalloporphyrins. These two molecules exhibit a sequential four-step decay ending on a slow evolution in the nanosecond range 2S2 → 2CT → 2T → 2Ground State. T...
International audienceWe examine the mechanism of ultrafast internal conversion between the B band (...
We present a systematic study of the ultrafast fluorescence with broadband detection and similar to ...
Herein, we report results from our studies on the ultrafast nonlinear optical (NLO) properties and e...
International audienceThe ultrafast dynamics of copper tetraphenylporphyrin (CuTPP), copper octaethy...
Excited state relaxation dynamics of Copper (II) tetraphenylporphyrin (CuTPP) after Soret band excit...
International audienceTriplet action spectra of two similar copper porphyrins, copper Tetraphenylpor...
International audienceDeactivation of the lowest excited triplet (pi,pi*) state, (3)(pi,pi*), of the...
With femtosecond resolution, using fluorescence up-conversion and transient absorption, we have carr...
A systematic study of the ultrafast decay of metalloporphyrins containing various transition metals ...
Femtosecond-resolved, real-time dynamics of the low-lying excited state ^2Q(π,π^*) of cobalt(II) tet...
International audienceThe time evolution of electronically excited heme (iron II protoporphyrin IX, ...
Metalloporphyrins are prominent building blocks in the synthetic toolbox of advanced photodriven mol...
Metalloporphyrins are prominent building blocks in the synthetic toolbox of advanced photodriven mol...
A photoinduced complex between Cu(TMpy-P4) and water molecules, reversibly axially coordinated to th...
© 2013 Dr. Benjamin Edward RobothamIn this work the photoinduced electron transfer (ET) behaviour of...
International audienceWe examine the mechanism of ultrafast internal conversion between the B band (...
We present a systematic study of the ultrafast fluorescence with broadband detection and similar to ...
Herein, we report results from our studies on the ultrafast nonlinear optical (NLO) properties and e...
International audienceThe ultrafast dynamics of copper tetraphenylporphyrin (CuTPP), copper octaethy...
Excited state relaxation dynamics of Copper (II) tetraphenylporphyrin (CuTPP) after Soret band excit...
International audienceTriplet action spectra of two similar copper porphyrins, copper Tetraphenylpor...
International audienceDeactivation of the lowest excited triplet (pi,pi*) state, (3)(pi,pi*), of the...
With femtosecond resolution, using fluorescence up-conversion and transient absorption, we have carr...
A systematic study of the ultrafast decay of metalloporphyrins containing various transition metals ...
Femtosecond-resolved, real-time dynamics of the low-lying excited state ^2Q(π,π^*) of cobalt(II) tet...
International audienceThe time evolution of electronically excited heme (iron II protoporphyrin IX, ...
Metalloporphyrins are prominent building blocks in the synthetic toolbox of advanced photodriven mol...
Metalloporphyrins are prominent building blocks in the synthetic toolbox of advanced photodriven mol...
A photoinduced complex between Cu(TMpy-P4) and water molecules, reversibly axially coordinated to th...
© 2013 Dr. Benjamin Edward RobothamIn this work the photoinduced electron transfer (ET) behaviour of...
International audienceWe examine the mechanism of ultrafast internal conversion between the B band (...
We present a systematic study of the ultrafast fluorescence with broadband detection and similar to ...
Herein, we report results from our studies on the ultrafast nonlinear optical (NLO) properties and e...