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Literature DB >> 19562131

Ring-opening reaction of a trifluorinated indolylfulgide: mode-specific photochemistry after pre-excitation.

Simone Draxler¹, Thomas Brust, Stephan Malkmus, Jessica A DiGirolamo, Watson J Lees, Wolfgang Zinth, Markus Braun.

Abstract

The ring-opening reaction of a trifluorinated indolylfulgide has been studied as a function of temperature and optical pre-excitation where it was found that reaction times decreased as temperature increased from 10.3 ps at 12 degrees C to 7.6 ps at 60 degrees C. Simultaneously, the quantum yields for the ring-opening reaction grew from 3.1% (12 degrees C) to 5.0% (60 degrees C). When the reaction was started from a non-equilibrium state generated by a directly preceding ring-closure process, the ring-opening reaction became faster and the quantum efficiency increased by more than a factor of three. Analysis of the experimental results points to mode-specific photochemistry in that the promoting, photochemically active modes of the photoreaction are efficiently excited by the directly preceding ring-closure reaction.

Entities: Chemical Disease Species

Mesh：

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Year: 2009 PMID： 19562131 PMCID： PMC2872927 DOI： 10.1039/b819585d

Source DB: PubMed Journal: Phys Chem Chem Phys ISSN： 1463-9076 Impact factor: 3.676

12 in total

1. Improved synthesis of indolyl fulgides.

Authors: C J Thomas; M A Wolak; R R Birge; W J Lees
Journal: J Org Chem Date: 2001-03-09 Impact factor: 4.354

2. Femtochemistry: Atomic-Scale Dynamics of the Chemical Bond Using Ultrafast Lasers (Nobel Lecture) Copyright((c)) The Nobel Foundation 2000. We thank the Nobel Foundation, Stockholm, for permission to print this lecture.

Authors:
Journal: Angew Chem Int Ed Engl Date: 2000-08-04 Impact factor: 15.336

Ring-opening reaction of a trifluorinated indolylfulgide: mode-specific photochemistry after pre-excitation.

1. Improved synthesis of indolyl fulgides.

2. Femtochemistry: Atomic-Scale Dynamics of the Chemical Bond Using Ultrafast Lasers (Nobel Lecture) Copyright((c)) The Nobel Foundation 2000. We thank the Nobel Foundation, Stockholm, for permission to print this lecture.

3. Fulgides for Memories and Switches.

4. Quantum control of energy flow in light harvesting.

5. Quantum control of gas-phase and liquid-phase femtochemistry.

6. Chirp dependence of wave packet motion in oxazine 1.

7. Sub-20-fs pulses tunable across the visible from a blue-pumped single-pass noncollinear parametric converter.

8. Tuning the optical properties of fluorinated indolylfulgimides.

9. Ultrafast ring-closure reaction of photochromic indolylfulgimides studied with UV-pump-IR-probe spectroscopy.

10. Wavelength and solvent independent photochemistry: the electrocyclic ring-closure of indolylfulgides.

1. Stability and reaction dynamics of trifluorinated indolylfulgides.

2. Increasing the efficiency of the ring-opening reaction of photochromic indolylfulgides by optical pre-excitation.