Search results for "Energy Transfer"

showing 10 items of 240 documents

Electronic Excitation Energy Transfer between Two Single Molecules Embedded in a Polymer Host

2007

Unidirectional electronic excitation energy transfer from a photoexcited donor chromophore to a ground state acceptor chromophore - both linked by a rigid bridge - has been investigated by low temperature high-resolution single molecule spectroscopy. Our approach allows for accurately accessing static disorder in the donor and acceptor electronic transitions and to calculate the spectral overlap for each couple. By plotting the experimentally determined transfer rates against the spectral overlap, we can distinguish and quantify Förster- and non-Förster-type contributions to the energy transfer.

PhotonMaterials scienceGeneral Physics and Astronomy02 engineering and technologyImides010402 general chemistry01 natural sciences7. Clean energyCondensed Matter::Materials ScienceFluorescence Resonance Energy TransferPolymethyl MethacrylateMoleculeComputer SimulationPhysics::Chemical Physicschemistry.chemical_classificationPhotonsQuantitative Biology::BiomoleculesPhysics::Biological PhysicsPolymerChromophore021001 nanoscience & nanotechnologyAcceptor0104 chemical sciencesEnergy TransferModels ChemicalchemistryAtomic electron transition[PHYS.PHYS.PHYS-CHEM-PH]Physics [physics]/Physics [physics]/Chemical Physics [physics.chem-ph]Atomic physics0210 nano-technologyGround stateExcitationPhysical Review Letters
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Resolving the Benzophenone DNA-Photosensitization Mechanism at QM/MM Level

2015

International audience; Benzophenone, the parent of the diarylketone family, is a versatile compound commonly used as a UV blocker. It may also trigger triplet-based DNA photosensitization. Therefore, benzophenone is involved in DNA photodamage induction. In the absence of experimentally resolved structure, the mechanism of DNA damage production remains elusive. Employing a hybrid quantum mechanics/molecular mechanics approach, here we address the spin transfer mechanism between this drug and proximal thymine, that is, the DNA nucleobase most prone to suffer triplet damages.

Photosensitizing AgentsDNA PhotosensitizationDNA damageChemistryDNAMolecular Dynamics SimulationPhotochemistryMolecular mechanicsQM/MM3. Good healthThymineNucleobaseQM/MM[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistryBenzophenoneschemistry.chemical_compoundMolecular dynamicsBenzophenoneEnergy TransferBenzophenoneQuantum TheoryGeneral Materials SciencePhysical and Theoretical ChemistryDNA
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Through space singlet energy transfers in the light harvesting systems and cofacial bisporphyrin dyads

2010

Recent discoveries from our research groups on the photophysics of a few cofacial bisporphyrin dyads for through space singlet and triplet energy transfers raised several important investigations about the mechanism of energy transfers and energy migration in light-harvesting devices, notably LH II, in the heavily investigated purple photosynthetic bacteria. The key feature is that for face-to-face and slipped dyads with controlled structure using rigid spacers or spacers with limited flexibilities, our fastest rates for singlet energy transfer are in the 10 × 109 s -1 (i.e. 100 ps time scale) for donor-acceptor distances of ~3.5–3.6 Å. The time scale for energy transfers between different…

Photosynthetic reaction centre0303 health sciencesenergy transfercofacial bisporphyrinsChemistryContext (language use)General ChemistryChromophore010402 general chemistrySpace (mathematics)01 natural sciences0104 chemical sciences[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry03 medical and health sciencesElectron transferchemistry.chemical_compoundChemical physicsComputational chemistry[ CHIM.THEO ] Chemical Sciences/Theoretical and/or physical chemistryPhotosynthetic bacteriaBacteriochlorophyllSinglet stateComputingMilieux_MISCELLANEOUS030304 developmental biologyphotophysics
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Comments on the through space singlet energy transfers and energy migration (exciton) in the light harvesting systems

2008

Recent findings on the photophysical investigations of several cofacial bisporphyrin dyads for through space singlet and triplet energy transfers raised several serious questions about the mechanism of the energy transfers and energy migration in the light harvesting devices, notably LH II, in the heavily studied purple photosynthetic bacteria. The key issue is that for simple cofacial or slipped dyads with controlled geometry using rigid spacers or spacers with limited flexibilities, the fastest possible rates for singlet energy transfer for three examples are in the 10 x 10(9)s(-1) (i.e. just in the 100 ps time scale) for donor-acceptor distances approaching 3.5-3.6 A. The reported time s…

Photosynthetic reaction centreExcitonenergy migrationLight-Harvesting Protein Complexes010402 general chemistryPhotochemistry01 natural sciencesBiochemistryModels BiologicalInorganic ChemistryElectron transferchemistry.chemical_compoundBacterial Proteinslight harvesting systemsSinglet stateBacteriochlorophyllsComputingMilieux_MISCELLANEOUSexcitonenergy transferMolecular Structure010405 organic chemistryChemistrybacteriochlorophyllChromophore0104 chemical sciences[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistryRhodopseudomonasChemical physicsPicosecond[ CHIM.THEO ] Chemical Sciences/Theoretical and/or physical chemistryThermodynamicsPhotosynthetic bacteriaBacteriochlorophyllporphyrin
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Direct energy transfer from the major antenna to the photosystem II core complexes in the absence of minor antennae in liposomes

2015

AbstractMinor antennae of photosystem (PS) II, located between the PSII core complex and the major antenna (LHCII), are important components for the structural and functional integrity of PSII supercomplexes. In order to study the functional significance of minor antennae in the energetic coupling between LHCII and the PSII core, characteristics of PSII–LHCII proteoliposomes, with or without minor antennae, were investigated. Two types of PSII preparations containing different antenna compositions were isolated from pea: 1) the PSII preparation composed of the PSII core complex, all of the minor antennae, and a small amount of major antennae (MCC); and 2) the purified PSII dimeric core comp…

Photosynthetic reaction centreLiposomePhotosystem IIChemistryPhotochemistryLight-Harvesting Protein ComplexesBiophysicsPhotosystem II Protein ComplexCell BiologyMinor antennaPhotochemistryFluorescenceBiochemistryProteoliposomePhotosystem IIProtein–protein interactionLight-harvesting complexSpectrometry FluorescenceEnergy TransferThylakoidLiposomesLight-harvesting complexAntenna (radio)PhotosystemBiochimica et Biophysica Acta (BBA) - Bioenergetics
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Visualizing a protein quake with time-resolved X-ray scattering at a free-electron laser

2014

We describe a method to measure ultrafast protein structural changes using time-resolved wide-angle X-ray scattering at an X-ray free-electron laser. We demonstrated this approach using multiphoton excitation of the Blastochloris viridis photosynthetic reaction center, observing an ultrafast global conformational change that arises within picoseconds and precedes the propagation of heat through the protein. This provides direct structural evidence for a 'protein quake': the hypothesis that proteins rapidly dissipate energy through quake-like structural motions. peerReviewed

Photosynthetic reaction centreMaterials scienceProtein ConformationPhysics::OpticsPhycobiliproteinsfrequency vibrational-modesRadiation DosageBiochemistryMolecular physicsArticlelaw.inventionProtein structureX-Ray Diffractionlawddc:570Scattering Small AngleMolecular Biologyta116Quantitative Biology::BiomoleculesScatteringLasersMolecular biophysicsFree-electron laserCell BiologyLaserstructural dynamicsEnergy TransferPicosecondBiophysicsUltrashort pulseBiotechnologyNature methods
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Field-free molecular alignment for probing collisional relaxation dynamics

2013

International audience; We report the experimental study of field-free molecular alignment in CO2 gas mixtures induced by intense femtosecond laser pulses in the presence of collisional processes. We demonstrate that the alignment signals exhibit specific features due to nontrivial collisional propensity rules that tend to preserve the orientation of the rotational angular momentum of the molecules. The analysis is performed with a quantum approach based on the modeling of rotational J- and M-dependent state-to-state transfer rates. The present work paves the way for strong-field spectroscopy of collisional dynamics.

PhysicsAngular momentumWork (thermodynamics)Field (physics)Mechanical effects of light on atoms molecules and ions42.50.MdRelaxation (NMR)Optical transient phenomena: quantum beats photon echo free-induction decay dephasings and revivals optical nutation and self-induced transparencyLaserMolecular physicsAtomic and Molecular Physics and Opticslaw.inventionRotational and vibrational energy transferlaw[SDU]Sciences of the Universe [physics]34.50.EzFemtosecond37.10.VzSpectroscopyQuantum
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MATHEMATICAL MODELLING OF THE SPECTRAL LINE PROFILES IN THE HIGH-FREQUENCY DISCHARGE

1999

Abstract The paper is devoted to an estimation of the true profiles of spectral lines and equipment influence based on complex experimental line shape profiles in high-frequency discharge by means of a non-linear multiparameter chi-square fit. The self-absorption and energy transfer effects are taken into consideration. A good agreement with interferometric data from Hg and Hg–Cd high-frequency electrodeless lamps of both natural and isotopic abundance are achieved. The temperature of radiating atoms and the optical density for several lines are obtained as a function of the high-frequency oscillator working regime. The confidence regions, standard deviations and correlations of parameters …

PhysicsInterferometryRadiationEnergy transferNatural abundanceStatistical modelFunction (mathematics)SpectroscopyAtomic and Molecular Physics and OpticsStandard deviationSpectral lineComputational physicsLine (formation)Journal of Quantitative Spectroscopy and Radiative Transfer
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Experimental Linear Energy Transfer of Heavy Ions in Silicon for RADEF Cocktail Species

2009

Experimental linear energy transfer values of heavy ions in silicon are presented with comparison to estimations from different semi empirical codes widely used among the community. This paper completes the experimental LET data for the RADEF cocktail ions in silicon.

PhysicsNuclear and High Energy PhysicsSiliconLinear energy transferchemistry.chemical_elementProbability density functionIonNuclear physicsTime of flightNuclear Energy and EngineeringIon acceleratorschemistryElectrical and Electronic EngineeringAtomic physicsNuclear ExperimentIEEE Transactions on Nuclear Science
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The Pion Single-Event Latch-Up Cross Section Enhancement: Mechanisms and Consequences for Accelerator Hardness Assurance

2021

Pions make up a large part of the hadronic environment typical of accelerator mixed fields. Characterizing device cross sections against pions is usually disregarded in favor of tests with protons, whose single-event latch-up (SEL) cross section is, nonetheless, experimentally found to be lower than that of pions for all energies below 250 MeV. While Monte Carlo simulations are capable of reproducing such behavior, the reason for the observed pion cross-section enhancement can only be explained by a deeper analysis of the underlying mechanisms dominating proton–silicon and pion–silicon reactions. The mechanisms dominating the SEL response are found to vary with the energy under consideratio…

PhysicsNuclear reactionNuclear and High Energy PhysicsMesonNuclear TheoryMonte Carlo methodHadronLinear energy transfer02 engineering and technology021001 nanoscience & nanotechnologyAccelerators and Storage Rings01 natural sciences7. Clean energyNuclear physicsCross section (physics)PionNuclear Energy and Engineering0103 physical sciencesNuclear Physics - ExperimentHigh Energy Physics::ExperimentElectrical and Electronic EngineeringNuclear Experiment010306 general physics0210 nano-technologyEvent (particle physics)IEEE Transactions on Nuclear Science
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