Your search keyword '"Canton, S. E."' showing total 3 results

1. Watching the dynamics of electrons and atoms at work in solar energy conversion.

Author

Canton SE, Zhang X, Liu Y, Zhang J, Pápai M, Corani A, Smeigh AL, Smolentsev G, Attenkofer K, Jennings G, Kurtz CA, Li F, Harlang T, Vithanage D, Chabera P, Bordage A, Sun L, Ott S, Wärnmark K, and Sundström V

Subjects

Coordination Complexes chemistry, Models, Molecular, Ruthenium chemistry, Sunlight, Electrons, Quantum Theory, Solar Energy

Abstract

The photochemical reactions performed by transition metal complexes have been proposed as viable routes towards solar energy conversion and storage into other forms that can be conveniently used in our everyday applications. In order to develop efficient materials, it is necessary to identify, characterize and optimize the elementary steps of the entire process on the atomic scale. To this end, we have studied the photoinduced electronic and structural dynamics in two heterobimetallic ruthenium-cobalt dyads, which belong to the large family of donor-bridge-acceptor systems. Using a combination of ultrafast optical and X-ray absorption spectroscopies, we can clock the light-driven electron transfer processes with element and spin sensitivity. In addition, the changes in local structure around the two metal centers are monitored. These experiments show that the nature of the connecting bridge is decisive for controlling the forward and the backward electron transfer rates, a result supported by quantum chemistry calculations. More generally, this work illustrates how ultrafast optical and X-ray techniques can disentangle the influence of spin, electronic and nuclear factors on the intramolecular electron transfer process. Finally, some implications for further improving the design of bridged sensitizer-catalysts utilizing the presented methodology are outlined.

Published

2015

2. Guest-host interactions investigated by time-resolved X‑ray spectroscopies and scattering at MHz rates: solvation dynamics and photoinduced spin transition in aqueous Fe(bipy)3(2+).

Author

Haldrup K, Vankó G, Gawelda W, Galler A, Doumy G, March AM, Kanter EP, Bordage A, Dohn A, van Driel TB, Kjær KS, Lemke HT, Canton SE, Uhlig J, Sundström V, Young L, Southworth SH, Nielsen MM, and Bressler C

Subjects

Kinetics, Photochemical Processes, Spectrometry, X-Ray Emission, Time Factors, Water chemistry, X-Ray Diffraction, Ferric Compounds chemistry, Quantum Theory, Thermodynamics

Abstract

We have studied the photoinduced low spin (LS) to high spin (HS) conversion of [Fe(bipy)(3)](2+) in aqueous solution. In a laser pump/X-ray probe synchrotron setup permitting simultaneous, time-resolved X-ray diffuse scattering (XDS) and X-ray spectroscopic measurements at a 3.26 MHz repetition rate, we observed the interplay between intramolecular dynamics and the intermolecular caging solvent response with better than 100 ps time resolution. On this time scale, the initial ultrafast spin transition and the associated intramolecular geometric structure changes are long completed, as is the solvent heating due to the initial energy dissipation from the excited HS molecule. Combining information from X-ray emission spectroscopy and scattering, the excitation fraction as well as the temperature and density changes of the solvent can be closely followed on the subnanosecond time scale of the HS lifetime, allowing the detection of an ultrafast change in bulk solvent density. An analysis approach directly utilizing the spectroscopic data in the XDS analysis effectively reduces the number of free parameters, and both combined permit extraction of information about the ultrafast structural dynamics of the caging solvent, in particular, a decrease in the number of water molecules in the first solvation shell is inferred, as predicted by recent theoretical work.

Published

2012

3. Plasmon single- and multi-quantum excitation in free metal clusters as seen by photoelectron spectroscopy.

Author

Andersson, T., Zhang, C., Rosso, A., Bradeanu, I., Legendre, S., Canton, S. E., Tchaplyguine, M., Öhrwall, G., Sorensen, S. L., Svensson, S., Mårtensson, N., and Björneholm, O.

Subjects

PLASMONS (Physics), ELECTRONIC excitation, METAL clusters, SYNCHROTRON radiation, QUANTUM theory, X-ray photoelectron spectroscopy, BINDING energy

Abstract

Plasmons are investigated in free nanoscale Na, Mg, and K metal clusters using synchrotron radiation-based x-ray photoelectron spectroscopy. The core levels for which the response from bulk and surface atoms can be resolved are probed over an extended binding energy range to include the plasmon loss features. In all species the features due to fundamental plasmons are identified, and in Na and K also those due to either the first order plasmon overtones or sequential plasmon excitation are observed. These features are discussed in view of earlier results for planar macroscopic samples and free clusters of the same materials. [ABSTRACT FROM AUTHOR]

Published

2011