Presentation is loading. Please wait.

Presentation is loading. Please wait.

Light-Induced Sulfur to Oxygen Isomerization

Published byCornelius May Modified over 5 years ago

Similar presentations

Presentation on theme: "Light-Induced Sulfur to Oxygen Isomerization"— Presentation transcript:

1 Light-Induced Sulfur to Oxygen Isomerization
of Ruthenium Sulfoxide Complexes Jackson Majher

2 Rhodopsin Photoswitchable molecules: molecules which change optically and electronically due to activation via electromagnetic radiation. Examples: Oxazine Sodium nitroprusside Kim, J. E.; McCamant, D. W.; Zhu, L.; Mathies, R. A.; J. Phys. Chem. B 2001, 105, 1240–1249. (2) Rymo, F. M.; J. Phys. Chem. A 2012, 116 (48), (3) Woike, T., Krasser, W., Bechthold, P. S., Haussuhl, S.; Phys. Rev. Lett. 1984, 53, 767–1770.

3 Background: (4) Rack, J. J.; Coordination Chemistry Reviews. 2009, 253, (5) Yeh, A.; Scott, N.; Taube, H.;Inorg. Chem. 1982, 21, 2542. (6) Roeker, L.; Dobson, J. C.; Vining, W. J.; Meyer, T. J.; Inorg. Chem. 1987, 29, 779. (7) Root, M. J.; Deutsch, E.; Inorg. Chem. 1985, 24,1464. (8) Silve, D. O.; Saika, J. J.; Toma, H. E.; J. Photochem. Photobiol. A 1998, 112, 209. (9) Smith, M. K.; Gibson, J. A.; Young, C. G.; Broomhead, J. A.; Junk, P. C.; Keene, F. R.; Eur. J. Inorg. Chem. 2000, 1365. (10) Rachford, A. A.; Rack, J. J.; J. Am. Chem. Soc. 2006, 128, (11) McClure, B. A.; Mockus, N. V.; Butcher, D. P.; Lutterman, D. A.; Turro, C.; Petersen, J. L.; Rack, J. J. Inorg. Chem. 2009, 48, 8084–8091.

4 [Ru(bpy)2(OSO)]+ -Relatively large quantum yield (0.45) achieved.
-Chelate effects changes mechanism -Ruthenium (w/ sulfoxide character) to * bpy transition assigned. -No evidence of O-bonded 3MLCT excited state. -Vibrationally relaxed 3MLCT 2 structure proposed. (11) McClure, B. A.; Mockus, N. V.; Butcher, D. P.; Lutterman, D. A.; Turro, C.; Petersen, J. L.; Rack, J. J.; Inorg. Chem. 2009, 48, 8084–8091.

5 -Transient absorption spectroscopy utilized for kinetic information.
Summary: -Series of ruthenium sulfoxide complexes that undergo SO isomerization were synthesized. -Characterization by electronic absorbance spectroscopy, IR, NMR and cyclic voltammetry. -Transient absorption spectroscopy utilized for kinetic information. -Results show picosecond timescale kinetics, suggestive of a mechanism including rapid nonradiative decay through conical intersection. (12) McClure, B. A.; Abrams, E. R.; Rack, J. J.; J. Am. Chem. Soc. 2010, 132, Goals of Paper: -Study relationship between distortion energy and isomerization reactivity. -Effect of changing electronic and steric factors contributing to exited state isomerization.

6 Absorption Spectra: -Absorption shift to lower wavelengths for BnF5 -Absorption applies to the d* transition. -fwhm highest for R=BnF5 complex which suggests larger nuclear displacement between ground and triplet excited state. -fwhm analysis showed metal-ligand contribution as being the major source of distortion.

7 Analysis Continued.. -Zero-zero energy was calculated using known values and the absorption spectra to predict room temperature wavelength emission at 1070, 1530, and 1780 nm for R = Nap, BnF5, and Bn respectively. -Were unable measure emission at these wavelengths though they did not see any emission from nm. -Emission max observed at 580, 576, and 572 nm for R = Nap, Bn, BnF5 respectively (77K). -Further testing required to see if NIR emission observed. -Relevant information: Strong affect of metal-ligand vibrations on absorption spectra and PES has temperature dependence. E0 = Eop - * - ST

8 Picosecond Transient Absorption
O-Bonded Isomer S-Bonded Isomer: 1.0, 2.0, 5.0, 10.3, 20.4, , 203.0, 508.0, 1008 ps 5.0, 10.2, 20.3, 50.7, 100.3, ps

9 R = Me

10 Conclusions: Criticisms:
-Distortion energy plays a large role in isomerization through conical intersections, primarily through metal-ligand interactions. -R = BnF5 complex shows good isomerization characteristics, electronic influence through sulfur bond achievable. -More testing needs to be done to narrow down specific electronic and steric factors needed to maximize isomerization conditions. Criticisms: -Not a significant expansion of knowledge past their previous work. -Would be helpful to include more R group types to solidify trends observed. -No computational calculations that provide reasoning to their results. -Emission calculations not backed up by any experimental data.

11 Acknowledgements: And Eric R. Abrams Beth McClure J. J. Rack

12 Questions?

Download ppt "Light-Induced Sulfur to Oxygen Isomerization"

Similar presentations

Acknowledgment SYNTHESIS, CRYSTAL STRUCTURES, AND ELECTRONIC SPECTRA OF (1,8-C 8 H 6 N 2 )Re I (CO) 3 Cl AND [(1,8-C 8 H 6 N 2 )Cu I (DPEPhos)]PF 6 U.

Acknowledgment SYNTHESIS, CRYSTAL STRUCTURES, AND ELECTRONIC SPECTRA OF (1,8-C 8 H 6 N 2 )Re I (CO) 3 Cl AND [(1,8-C 8 H 6 N 2 )Cu I (DPEPhos)]PF 6 U.
Raman Spectroscopy A) Introduction IR Raman

Raman Spectroscopy A) Introduction IR Raman
Lecture 12 Molecular Photophysics

Lecture 12 Molecular Photophysics
Hemilabile Coordination Complexes as Fluorescent Chemosensors The Groundwork: RuPOMe Anthony Tomcykoski.

Hemilabile Coordination Complexes as Fluorescent Chemosensors The Groundwork: RuPOMe Anthony Tomcykoski.
Emission Spectra and Flame Tests. The Big Questions What is light? How is light emitted? What do electrons have to do with light? What are emission spectra?

Emission Spectra and Flame Tests. The Big Questions What is light? How is light emitted? What do electrons have to do with light? What are emission spectra?
Advanced Higher Chemistry Unit 1 Spectroscopy. Spectroscopy  Spectroscopy is used to give information regarding the structure of atoms or molecules.

Advanced Higher Chemistry Unit 1 Spectroscopy. Spectroscopy  Spectroscopy is used to give information regarding the structure of atoms or molecules.
METO 637 LESSON 3. Photochemical Change A quantum of radiative energy is called a photon, and is given the symbol h Hence in a chemical equation we.

METO 637 LESSON 3. Photochemical Change A quantum of radiative energy is called a photon, and is given the symbol h Hence in a chemical equation we.
UV-Vis spectroscopy Electronic absorption spectroscopy.

UV-Vis spectroscopy Electronic absorption spectroscopy.
Wickstrom PR 613 Fluorescence. Source Dispersing Sample Detector Computer Lens Dispersing Instrumentation.

Wickstrom PR 613 Fluorescence. Source Dispersing Sample Detector Computer Lens Dispersing Instrumentation.
Photochemistry And Photophysics Of Nanoparticles Brian Ellis.

Photochemistry And Photophysics Of Nanoparticles Brian Ellis.
LASER Induced Fluorescence of Iodine Eðlisefnafræði 5 – 30. mars 2006 Ómar Freyr Sigurbjörnsson.

LASER Induced Fluorescence of Iodine Eðlisefnafræði 5 – 30. mars 2006 Ómar Freyr Sigurbjörnsson.
Copyright © Professor Sang Kuk Lee, Department of Chemistry, Pusan National University. All rights reserved. 1 The 69 th Meeting of International Symposium.

Copyright © Professor Sang Kuk Lee, Department of Chemistry, Pusan National University. All rights reserved. 1 The 69 th Meeting of International Symposium.
DETERMINATION OF THE RATE OF AN ELECTRON TRANSFER REACTION BY FLUORESCENCE SPECTROSCOPY Presenter:Sandor Kadar, Ph.D.

DETERMINATION OF THE RATE OF AN ELECTRON TRANSFER REACTION BY FLUORESCENCE SPECTROSCOPY Presenter:Sandor Kadar, Ph.D.
RamanRaman. Scattering Tyndall scattering – if small particles are present During Rayleigh scattering (interaction of light with relatively small molecules)

RamanRaman. Scattering Tyndall scattering – if small particles are present During Rayleigh scattering (interaction of light with relatively small molecules)
1 Miyasaka Laboratory Yusuke Satoh David W. McCamant et al, Science, 2005, 310, 1006-1009 Structural observation of the primary isomerization in vision.

1 Miyasaka Laboratory Yusuke Satoh David W. McCamant et al, Science, 2005, 310, Structural observation of the primary isomerization in vision.
I.Absorbing Species Absorption of light is a two step process: AbsorptionM + h   M* Relaxation M*  M + heat The heat evolved (very minute) does not.

I.Absorbing Species Absorption of light is a two step process: AbsorptionM + h   M* Relaxation M*  M + heat The heat evolved (very minute) does not.
Introduction to Spectroscopy

Introduction to Spectroscopy
Pyridine Ligands. and the Stability of Birju Patel Johns Hopkins University December 19, 2007.

Pyridine Ligands. and the Stability of Birju Patel Johns Hopkins University December 19, 2007.
Pulsed Field Ionization-Zero Electron Kinetic Energy (PFI-ZEKE) Spectroscopy of Sc-C 6 H 5 X(X=F,CH 3,OH) Complexes Changhua Zhang, Serge A. Krasnokutskia.

Pulsed Field Ionization-Zero Electron Kinetic Energy (PFI-ZEKE) Spectroscopy of Sc-C 6 H 5 X(X=F,CH 3,OH) Complexes Changhua Zhang, Serge A. Krasnokutskia.
Chemistry is in the electrons Electronic structure – how the electrons are arranged inside the atom Two parameters: –Energy –Position.

Chemistry is in the electrons Electronic structure – how the electrons are arranged inside the atom Two parameters: –Energy –Position.

Similar presentations

Ads by Google